Long distance telephone switching system with enhanced subscriber services

ABSTRACT

A long distance telephone switching system is adapted to provide various enhanced subscriber services, such as an audio news and information service, conference calling, voice messaging, message storage and forwarding, and speed dialing, in addition to conventional long distance calling. Additional improvements include the use of prerecorded opening and closing scripts to facilitate the handling of operator-assisted calls, the retrieval of stored subscriber billing data prior to each call reorigination in order to detect instances of possible abuse, and the concatenation of subscriber-input authorization codes with access number data to allow the use of shorter authorization codes by the subscribers.

BACKGROUND OF THE INVENTION

The present invention relates generally to telephone switching systems,and is specifically concerned with a long distance switching systemwhich is adapted to provide a number of enhanced subscriber services inaddition to conventional long distance calling.

The restructuring of the U.S. telephone industry has made it possiblefor telephone subscribers to obtain long distance calling service from avariety of sources. In addition to exerting downward pressure on longdistance rates, this has had the effect of encouraging long distancecompanies to offer subscribers additional service options that were notavailable previously. As an example, some long distance companies nowoffer subscribers the option of placing long distance calls from remotelocations by dialing an access number (typically a toll-free 800number), followed by an authorization code known only to the subscriber.Previously, subscribers wishing to place long distance calls fromlocations other than their own homes or businesses were required to seekoperator assistance in order to make appropriate billing arrangements.

There are a number of additional types of services, such as conferencecalling, call forwarding, speed dialing, and message storage andforwarding, that would be attractive to many long distance telephonesubscribers. To date, however, these services have usually been providedonly in connection with private branch exchange (PBX) systems. In thistype of system, the number of individual telephone stations involved isordinarily small enough that enhanced services can be provided without agreat deal of additional cost. In addition, since PBX systems areordinarily not required to carry out billing or cost accountingfunctions (except in the case of outside calls), the problem ofconfiguring the system in order to bill subscribers for these enhancedservices on an itemized basis does not arise.

A number of attempts have been made to provide enhanced PBX-typeservices through a local telephone exchange serving an entire region orcommunity. Generally, this has involved the installation of add-onequipment at the local exchange in order to provide the desired servicesto subscribers located in the region served by the exchange. Theprincipal limitation of such systems, however, is that most of theenhanced services available to the subscriber (except for certainprogramming functions) can be accessed only from the subscriber's owntelephone set. This is a result not only of the physical placement ofthe add-on equipment at the local telephone exchange, but also of thefact that the local exchange relies on the origination of the call onthe subscriber's line to identify the subscriber for billing purposes.

In principle, it would be desirable to implement conference calling,call forwarding, speed dialing, message storage and forwarding, andother PBX-type services in a long distance switching environment. Thiswould have the advantage of allowing these enhanced services to beaccessed by subscribers located at any point within a wide geographicarea. In practice, however, such an extension has not been feasible forat least two reasons. In the first place, the architecture of existingtypes of switching systems limits the amount and type of informationwhich can be passed through the switch, a situation which makes itdifficult to bill subscribers for enhanced services on an itemizedbasis. The second factor is the possibility that unauthorized callersmay gain access to the long distance system, causing economic loss tothe company operating the system and disruption to the subscriber.Unauthorized access is already a serious problem in conventional longdistance calling, but the potential for abuse is obviously much greaterwhen services other than long distance calling are available to theunauthorized user. The use of individual access codes known only to thesubscribers can alleviate the problem to some extent, but this does notprovide a complete solution since these codes may, in time, become knownto others.

SUMMARY OF THE INVENTION

In accordance with the present invention, various types of enhancedservices previously available to telephone subscribers only through aPBX system, or in some cases through a local telephone exchange, can nowbe provided through a central long distance switching office. As aresult, the subscriber can access these services from telephone stationslocated anywhere within a wide geographic area, and can be billed forthese services in the same way that long distance domestic andinternational telephone calls are currently billed.

In respect of one aspect, the invention provides apparatus for makingenhanced telephone services available for use by a caller at virtuallyany telephone, irrespective of its location. In this form, there is aswitching means which is deployed to receive an authorization code andselection codes entered from a telephone, by a caller, at which theenhanced services are desired to be used. Operating in connection withthe switching means is a processing means to receive the authorizationand selection codes and to retrieve from a storage means informationwhich defines certain of the enhanced services. The certain definedenhanced services have been preselected by a subscriber. In response tothe authorization code, the information is extracted by the processingmeans and the preselected services are made available for selection anduse at the caller's telephone station by entry of the selection codes.The processing means may be adapted to provide the caller with anaudible message identifying the preselected enhanced services availablefor selection.

In another aspect, the invention provides a method whereby enhancedtelephone services can be furnished to any telephone station on request.To that end, an authorization code is assigned to a subscriber for useby a caller desiring to use the services. In operation, theauthorization code is received at a telephone switching facility fromthe telephone station at which the caller wishes to use such services.Once received, the authorization code is used as a key to gain access toa record of the services and a menu thereof is presented to the callerat the telephone station. One or more selections from the menu ofservices are received as an indication of the service desired to beused. The selected service is furnished to the caller if the subscriberhas preselected that service as available for selection.

Among the enhanced services that may be made available by operation ofthe invention are audio news and information services, conferencecalling, voice messaging, message storage and forwarding, and speeddialing. In one aspect of the invention, an access number may beutilized to gain admission to the services. This feature may be used tosupport multiple subscribers whereby the access code is common, but eachsubscriber is provided with a unique number (e.g., a card number) forallowing access to that subscriber's preselected enhanced services.

BRIEF DESCRIPTION OF THE DRAWING

The various objects, advantages and novel features of the invention willbe more readily apparent from the following detailed description whenread in connection with the appended drawings, in which:

FIG. 1 is a block diagram of a long distance switching system in whichthe present invention may be utilized;

FIG. 2 is a block diagram illustrating the principal components of thelong distance switching office of FIG. 1;

FIG. 3 is a detailed block diagram of the digital switching systemincluded in the long distance switching office of FIG. 2;

FIG. 4 illustrates the components of the automated and manual operatorconsoles used in the long distance switching office of FIG. 2;

FIG. 5 is a block diagram of a file server used in the long distanceswitching office of FIG. 2;

FIG. 6 is a block diagram of the management information system shown inFIG. 2;

FIG. 7 is a block diagram of the audio interface used in the operatorconsole of FIG. 4;

FIGS. 8A and 8B depict a flow chart illustrating the operations carriedout by the long distance switching office of FIG. 2 in order to sortincoming calls into different types;

FIGS. 9A and 9B depict a flow chart illustrating the manner in whichconventional long distance calls are processed by the long distanceswitching office of FIG. 2;

FIGS. 10A, 10B, 10C, and 10D depict a flow chart indicating the mannerin which incoming calls requesting enhanced subscriber services areprocessed by the long distance switching office of FIG. 2;

FIG. 11 is a flow chart illustrating the sequence of operations carriedout by the long distance switching office of FIG. 2 to provide access toan audio news and information system;

FIGS. 12A, 12B, 12C, 12D, 12E, and 12F depict a flow chart illustratingthe sequence of operations carried out by the long distance switchingoffice of FIG. 2 to provide message storage and forwarding services;

FIG. 13 is a flow chart illustrating the manner in which a subscribermay direct the rerouting of incoming guest calls placed on an accessline reserved for the subscriber;

FIG. 14 is a flow chart illustrating the sequence of operations carriedout by the long distance switching office of FIG. 2 in order to providespeed dialing services to subscribers;

FIGS. 15A and 15B depict a flow chart illustrating the manner in whichan enhanced directory assistance service is provided to a subscriberfrom a manual operator console;

FIGS. 16A, 16B, 16C, and 16D illustrate certain screen displays whichare generated at the manual operator console to facilitate the enhanceddirectory assistance service;

FIG. 17 is a flow chart illustrating the manner in which guest calls tosubscribers are handled by the long distance switching office of FIG. 2;

FIG. 18 is a flow chart illustrating the manner in which pre-recordedopening and closing operator scripts may be generated by the manualconsoles of FIG. 2;

FIGS. 19A and 19B depict a flow chart illustrating the manner in whichan enhanced conference calling service may be provided in accordancewith the present invention; and

FIG. 20 is a flow chart illustrating the sequence of operations carriedout by the management information system of FIG. 2 in generating a billfor the subscriber.

Throughout the drawings, the use of like reference numerals should beunderstood to refer to like parts and components.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT General Description

FIG. 1 is a block diagram of a long distance telephone system in whichthe present invention may be advantageously employed. A long distancecall is originated at a subscriber terminal 30, which will typicallyconsist of a conventional telephone set but may also include a computerterminal, modem, facsimile machine, or the like. The call is routed to alocal telephone exchange 32, which contains translation and switchingequipment for detecting the called number and routing the call to theappropriate outgoing line. In some instances, as in the case where thecall is being placed from the subscriber's own home, the call is routedon an outgoing trunk line which leads directly to a long distanceswitching office 34 operated by the company chosen by the subscriber toprovide long distance telephone service. In other instances, includingthose in which the subscriber is calling from a pay telephone station orfrom some other remote location, the subscriber may dial an accessnumber which causes the local exchange 32 to route the call to thesubscriber's long distance switching office 34 through a toll-free (800)network 36. The distinction between these two types of calls will beexplained in more detail hereinafter.

At the long distance switching office 34, the incoming call is analyzedto determine the identity of the calling subscriber, the type of callbeing made, and the status of the subscriber's account. The call is thentransferred to an outgoing trunk line, and billing records are generatedwhich are temporarily stored and then used at a later time to generate abill for the subscriber. From the switching office 34, the call isrouted to a second long distance switching office 40 in a differentgeographic area, either directly or through a regional gateway switchingoffice 38. The switching office 40 then transfers the call to theappropriate local exchange 42, which in turn routes the call to adestination terminal 44 corresponding to the number called by thesubscriber. As in the case of the subscriber terminal 30, thedestination terminal 44 will typically consist of a standard telephoneset, but may also include computer or facsimile equipment.

In accordance with the present invention, certain enhanced servicespreviously available to a telephone subscriber only through the localexchange 32, such as conference calling, call forwarding, speed dialing,and message store-and-forward services, can now be provided through thecentral long distance switching office 34. This makes it possible forthe subscriber to access these services from remote telephone stationslocated at any point within a wide geographic area. Other types ofservices, such as audio news and information services, voice messaging,and various types of operator-assisted services, can also be provided tothe subscriber in a similar manner. Because all of these services aremade available to the subscriber through a single long distanceswitching office 34, they can be accessed by means of a single telephonecall and presented to the subscriber in audible menu form. Billingprocedures are also simplified, since the long distance switching office34 can generate a single bill to the subscriber listing the chargesincurred for each of the enhanced services, in addition to the usualcharges for domestic and international telephone calls.

In addition to providing various types of enhanced subscriber services,the present invention is also directed to certain improvements in themanner in which conventional types of subscriber calls are handled atthe long distance switching office 34. These improvements include theuse of pre-recorded opening and closing scripts to facilitate thehandling of operator-assisted calls, the retrieval of stored subscriberbilling data prior to each call reorigination in order to detectinstances of possible abuse, and the concatenation of subscriber-inputauthorization codes with access number data to allow the use of shorterauthorization codes by the subscribers. These aspects of the inventionwill be discussed in more detail in the description which follows.

Long Distance Switching Office

The principal components of the long-distance switching office 34 ofFIG. 1 are illustrated in block form in FIG. 2. The incoming andoutgoing trunk lines are connected to a digital switching system 46,which may be of a commercially available type such as the X08-26.0series digital switch manufactured by DSC Communications Corporation ofPlano, Tex. Associated with the digital switching system 46, either atthe switching office 34 or at another location, are an audio news andinformation system 45, a voice messaging system 47, an audio responseunit 49 and a conference bridge 51, the functions of which will bediscussed in detail hereinafter. Incoming calls received by the digitalswitching system 46 are transferred on an individual basis to a numberof automated operated consoles 48 and manual operator consoles 50. Thefunction of the operator consoles is to analyze each incoming call inorder to determine the type of call being made, and, in the event that arequest is being made for one of the enhanced subscriber servicesdescribed previously, to initiate the desired service. The operatorconsoles also retrieve subscriber files from storage in order todetermine whether the requested call or service is authorized, andcreate a billing detail record (BDR) for each call in order to allowitemized bills to be sent to the subscribers. Once initial processing ofthe call is complete, the console releases the call and control isreturned to the digital switching system 46 for the duration of thecall.

The operator consoles 48, 50 may be implemented as personal computerterminals, and are provided with suitable software programming andhardware interfaces for exchanging digital and audio signals with theswitching system 46. Software programs of the required type, which areknown as operator service systems (OSS), are available frommanufacturers of commercially available types of digital switchingsystems. The automated consoles 48 and manual consoles 50 aresubstantially similar to each other in construction, except that theautomated consoles are programmed to handle incoming calls automaticallywhile the manual consoles are programmed to respond to keyboard inputsentered by a human operator. These inputs will ordinarily be enteredwhile the operator is conversing with the calling or called party.Normally, the digital switching system 46 is programmed to initiallyroute all incoming calls to the automated consoles 48, unless all of theautomated consoles are busy. In the latter situation, or in the casewhere the subscriber has requested a service or call type requiringhuman operator assistance, control over the incoming call is passed fromthe automated console to one of the manual consoles 50.

In practical applications, approximately 40 automated consoles and 80manual consoles may be employed, the total number being limited by thecapacity of the digital switching system 46 and the limits of the OSSsoftware. The switching system 46 communicates with the automatedconsoles 48 on a pooled basis, and automatic log-in procedures are usedto indicate to the switching system 46 the particular consoles which areoperating at any given time. The manual consoles 50 are handled in asimilar manner, except that the required log-ins are entered manually bythe human operators through the use of the console keyboard.

With further reference to FIG. 2, the automated and manual consoles 48,50 communicate with a number of file servers 52 by means of a local areanetwork (LAN) 54. The file servers 52, all of which are essentiallyidentical, contain OSS software programs, subscriber files, and billingdetail records (BDRs) which are periodically retrieved by the consoles48, 50 in order to allow individual calls to be processed. The LANallows communication to take place among the various consoles 48, 50 andfile servers 52 on a time-division basis. The Ethernet system developedby Xerox Corporation of Rochester, N.Y. is an example of a suitable LANwhich may be used for this purpose. In the Ethernet system, the devicesrequiring communication with each other are connected to a shared cableby means of transceivers, and data is exchanged in packets containingthe addresses of the sending and receiving units. Other types of localarea networks can also be used in the practice of the present invention.

Also connected to the LAN 54 are a number of data storage units 56,which preferably comprise magnetic tape drives. The function of theunits 56 is to provide off-line storage for BDR data generated by theautomated and manual consoles 48, 50, and to transfer this data to amanagement information system (MIS) 58. The MIS 58 correlates BDR dataobtained from the storage units 56 with call detail record (CDR) dataproduced automatically by the digital switching system 46, and uses thisinformation to generate printed bills which are periodically sent to thesubscribers. In a preferred implementation, the MIS 58 comprises a largemainframe computer such as the Model 3090 system manufactured byInternational Business Machines Corporation of Armonk, N.Y.

Digital Switching System Components

FIG. 3 is a more detailed block diagram of the digital switching system46. The primary component of this system is a switching matrix 60, whichestablishes connections between incoming and outgoing lines 62, 64 inorder to process incoming calls or service requests. The incoming andoutgoing lines 62, 64 will typically include local exchange lines,toll-free (800) service lines, T-carrier carrier trunks, and tie trunks.These lines carry incoming calls from subscribers and non-subscribers(e.g., guests seeking access to subscriber voice messaging systems) andalso carry signals needed to support features such as automatic numberidentification (ANI), which identifies the telephone number of thecalling party.

The operation of the switching matrix 60 in FIG. 3 is controlled by acentral processing unit (CPU) 66, which is in turn controlled bysoftware programs stored in a read-only memory (ROM) 68. The CPU is alsoconnected to a random access memory (RAM) 70, which provides temporarystorage of system performance data and CDR data generated during callprocessing. The switching matrix 60 and CPU 66 provide a number ofoutputs to the operator consoles 48, 50 and MIS 58 of FIG. 2. Theoperator consoles each receive two four-wire audio lines 74, 76 from theswitching matrix 60, and data lines 78 from the CPU 66. The data lines78 allow digital control information to be passed between the CPU 66 andthe consoles 48, 50. The audio lines 74, 76 allow the automated andmanual consoles to exchange voice and tone signals with the subscriberduring the initial portion of each incoming call. Although a singletransmit-and-receive audio line would be sufficient for this purpose,the use of two audio lines, as shown, allows an automated or manualconsole to place an outgoing call for a subscriber while the subscriberis held on an incoming line. This capability is required for voicemessage access, conference calling, and certain other services as willbe described in more detail below.

It will be understood that the audio and data lines 74-78 of FIG. 3 areduplicated for each of the automated and manual consoles 48, 50. Theswitching matrix 60 and CPU 66 include suitable gating logic fordirecting audio and digital signals associated with incoming calls tospecific consoles 48, 50, either on a random basis or in accordance witha predetermined pattern or schedule that assures a relatively evendistribution of calls among the various consoles.

The CPU 66 also provides certain outputs to the MIS 58 of FIG. 2 on line80. These outputs consist primarily of call detail record (CDR) data,but may also include system performance data that can be monitored bysupervisory personnel and/or used to generate printed reports. A CDR isproduced automatically by the CPU 66 during the processing of each call,and contains certain key information that is used, together with the BDRdata referred to previously, to produce a bill for the subscriber. Thespecific format of the CDR will vary according to the particular type ofdigital switching system 46 employed, but will typically consist of aseries of reserved fields of different lengths in which certain types ofcall process data may be inserted. Such data may include, for example,the telephone number of the calling party (obtained from the incomingANI data), the telephone number to which the call is being placed,various time points representing the progress of the call betweenorigination and disconnection, and a unique sequence number identifyingthe CDR for later retrieval. Some of this information, such as the ANIdata and the called number, is obtained directly from the incoming lines62. Other information, including the various time points, is generatedautomatically by the switching matrix 60 or CPU 66 during callprocessing. Still other information, such as the sequence number, isobtained from the operator consoles 48, 50 during the initial portion ofeach incoming call.

Operator Consoles

FIG. 4 illustrates the components of one of the automated or manualoperator consoles 48, 50 of FIG. 2. As noted previously, the automatedand manual consoles are substantially identical to each other, exceptinsofar as their internal programming is concerned. There are, however,minor hardware differences between the two types of consoles, as will beexplained hereinafter.

In the preferred embodiment, the operator consoles 48, 50 comprisepersonal computer terminals which are modified with suitable programmingand hardware interfaces to perform the functions required by the presentinvention. By way of example, the operator consoles may be based on IBMPC-AT personal computers manufactured by International Business MachinesCorporation of Armonk, N.Y., or equivalent machines produced by othermanufacturers. The operation of the console is controlled by a centralprocessing unit 82, which is connected to each of the remainingcomponents by means of a bidirectional data, address and control bus 84.A random-access memory (RAM) 86 stores OSS software and otherinformation obtained from the file servers 52, and also provides workingmemory for the console. A read-only memory (ROM) 88 stores variousprograms needed for input-output, power-up, self-test, and bootingprocedures. A keyboard 90 is provided to allow manual commands to beentered by a human operator, in the case of a manual console, or toallow initialization and diagnostic operations to be carried out on anautomated console. The console also includes a video monitor 92 fordisplaying call processing information, and a disk drive unit 94 forloading operating system software into the console using standard5.25-inch magnetic diskettes. In the case of a manual console, the videomonitor 92 displays stored operator scripts, subscriber accountinformation, and other information that facilitates manual handling ofincoming calls. Similar information is displayed by the video monitors92 of an automated console, in order to allow the operation of theconsole to be monitored from time to time. Since such monitoring willordinarily be relatively infrequent, a single monitor 92 can be sharedby a number of automated operator consoles 48 by means of a selectorswitch (not shown).

In order to allow the operator consoles to send and receive digital datafrom the digital switching system 46 of FIG. 3, an RS-232 serialinterface 96 is connected to the bus 84. The serial interfacecommunicates with the CPU 66 of the digital switching system 46 by meansof the data lines 78 described previously. Audio communication betweenthe operator console and the digital switching system 46 is madepossible by an audio interface 98, to which the audio lines 74, 76 ofFIG. 3 are connected. The audio interface 98, which may consist of oneor more plug-in circuit cards occupying slots in the personal computerterminal serving as the operator console, as will be described in moredetail in connection with FIG. 7. In addition to the serial and audiointerfaces 96, 98, the operator console includes a LAN interface 100which serves to connect the console to the local area network 54 of FIG.2. The LAN interface may consist of a plug-in card, although itsspecific construction and operation will depend upon the nature of theLAN employed. In the case of the Ethernet LAN described previously, theLAN interface 100 will consist of a transceiver which allows data to betransferred between the operator console and the shared cable to whichthe remaining consoles 48, 50 and file servers 52 of FIG. 2 areconnected.

File Servers

The file servers 52 of FIG. 2 provide high-capacity storage for varioustypes of data and programming used or generated during call processing,including the OSS software used by the automated and manual consoles 48,50, individual subscriber files identifying authorized call types andservice options, and BDR data generated by the automated and manualconsoles during call processing. A block diagram of one of the fileservers 52 is provided in FIG. 5.

As in the case of the operator consoles 48, 50, the file server 52 maybe based on a commercially available type of personal computer terminal,such as the Model 325 personal computer manufactured by Dell ComputerCorporation of Austin, Tex. The file server is controlled by a centralprocessing unit (CPU) 102, which communicates with the remainingcomponents by means of a bidirectional bus 104. A random access memory(RAM) 106 provides working storage for the CPU 102, and also stores theoperating system software used to control the file server. A read-onlymemory (ROM) 107 stores the programming needed to load the operatingsystem software into the RAM 106. A keyboard 108 and video a monitor 110are provided to allow supervisory personnel to carry out variousinitialization and diagnostic procedures. As in the case of theautomated operator consoles, a single monitor 110 can be shared among anumber of file servers 52 by means of a selector switch (not shown).

The mass storage function of the file server 52 is accomplished by meansof a number of hard disk drives 112, which are connected to thebidirectional bus 104 by means of a disk drive controller 114. A floppydisk drive 115 is also provided in order to load operating systemsoftware into the hard disk drives 114. A LAN interface 116, similar tothat employed in the operator console of FIG. 4, is connected to the bus104 in order to allow information to be transferred to and from the fileserver 52 through the local area network 54 of FIG. 2. This informationwill generally consist of OSS programming that is loaded as needed intothe automated and manual consoles 48, 50, individual subscriber filesrequested by the operator consoles when incoming calls are received, andBDR data generated or retrieved by the operator consoles. The OSSprogramming is usually loaded into the operator consoles only once,during initial power-up, and is stored in the console RAM so that it isimmediately available for use during call processing.

Management Information System

A block diagram of the management information system (MIS) 58 of FIG. 2is provided in FIG. 6. The MIS 58 is controlled by a central processingunit (CPU) 118 which is, in turn, controlled by billing program softwarestored in a read-only memory (ROM) 120. Various programs needed forinformation and data input/output, power-up and self-testing are alsostored in the ROM. The CPU is also connected to a random access memory(RAM) 122, which provides temporary storage of OSS software, as well asbilling information such as CDR data obtained from the digital switchingsystem 46 and BDR data obtained from the data storage units 56. As notedpreviously, the BDR data is initially stored in the file server 52 andis transferred to the magnetic tape at the storage units 56 through theLAN interface 54. Information and data can be exchanged between the CPUand one or more input/output devices 124 such as operator terminals. Theterminals 124 include a keyboard for the entry of manual commands anddata from a human operator, as well as a video monitor for displayingbilling processing information. A printer 126 is provided to render hardcopy subscriber account statements obtained from data processed by theCPU 118.

Audio Interface

FIG. 7 is a block diagram of the audio interface 98 shown generally inFIG. 4. As noted previously, the audio interface 98 preferably comprisesone or more plug-in circuit cards which are inserted into slots in thepersonal computer terminals serving as the automated and manual operatorconsoles 48, 50. There are slight differences in hardware between theaudio interfaces used in the automated consoles 48 and those used in themanual consoles 50, and these differences will be explained hereinafter.

With particular reference to FIG. 7, the audio interface 98 includes acrossbar switching matrix 140 which establishes connections among theaudio lines connecting the operator console to other equipment. Includedamong these lines are the audio lines 74, 76 which connect the operatorconsole to the switching matrix 60 of FIG. 3. As noted previously, oneof these audio lines allows tone and voice signals to be exchangedbetween the operator console and a calling subscriber, and the otherallows the operator console to place an outgoing call while thesubscriber is held on an incoming line. A third audio line 142 isprovided in order to connect the operator console to a local privatebranch exchange (PBX). The local PBX allows supervisory personnel tomonitor conversations which are taking place between the operatorconsoles and outside callers, primarily for the purpose of evaluatingthe performance of the human operators stationed at the manual consoles50. This audio line may be omitted in the case of an automated console,or may simply be left unconnected. A fourth audio line 144 is providedin order to allow certain types of auxiliary inputs to be connected tothe operator console, such as pre-recorded musical programs or spokenmessages. This pre-recorded material may be used to provideentertainment, advertising or informative messages to a caller duringperiods when it is necessary for the operator console to place thecaller's line on hold. The audio line 144 also provides an auxiliaryoutput from the operator console which may, for example, be used toallow tape recording of incoming calls for billing verification or inemergency situations. A fifth audio line 146 is provided in order toallow a headset (not shown) to the operator console. This audio line isprincipally for use by the human operators stationed at the manualconsoles 50, and may be omitted or left unconnected in the case of theautomated consoles 48.

Each of the audio lines 74, 76 and 142-146 is connected to the crossbarswitching matrix 140 through a separate line interface circuit 148. Thiscircuit contains audio transformers and other equipment necessary toprovide isolation and impedance matching between the operator consoleand the particular item of external equipment to which the audio line isconnected. In the case of the headset audio line 146, a volume controlunit 150 is connected between the line interface circuit 148 and thecrossbar switching matrix 140 in order to allow the human operator toadjust the headset volume by entering appropriate commands through themanual console keyboard.

With further reference to FIG. 7, the operation of the crossbarswitching matrix 140 is controlled by a microprocessor 152 in responseto programming stored in a read-only memory (ROM) 154. A random accessmemory (RAM) 156 provides working storage for the microprocessor 152,and an interface circuit 158 connects the microprocessor 152 to theconsole data bus 84 of FIG. 4. Through this interface, themicroprocessor 152 receives commands and other information from theconsole CPU 82 of the FIG. 4, and vice-versa. Additional outputs fromthe microprocessor 152 are used to control the volume control unit 150and a dual-tone multi-frequency (DTMF) unit 160. The DTMF unit 160provides the operator console with the tone generation functions neededto place outgoing calls and to operate certain types of tone-controlledexternal equipment, such as the audio news and information system 45,voice messaging system 47, and audio response unit 49 of FIG. 2. Alsoconnected to the microprocessor 152 is a digital signal processor (DSP)162, which allows the microprocessor to detect and process dial tonesignals, disconnect signals, voice signals and other types of incomingaudio signals which may appear on the audio lines 74, 76 leading to theswitching matrix 140. The DSP 162 also generates certain types of audiosignals, including digitized voice messages and tone prompts, which areapplied to the audio lines 74, 76 when needed in order to handle anincoming call. The DSP 162 operates digitally in accordance withprogramming stored in a read-only memory (ROM) 164. A coder-decoder(codec) unit 166 performs analog-to-digital conversion on the audiosignals received by the DSP 162 from the switching matrix 140, and alsoperforms digital-to-analog conversion on output signals from the DSP 162that are applied to the switching matrix 140.

When an incoming call is received by an automated console 48, themicroprocessor 152 of the audio interface 98 exchanges commands and datawith the console microprocessor 82 of FIG. 4 in order to process thecall in accordance with the OSS stored in the console RAM 86. Initially,this will involve the playback of stored audio messages and/or prompttones to the subscriber in order to advise the subscriber of the variouscalling options and services that are available. This is done by meansof the DSP 162 and codec 166, which are connected during this time tothe incoming audio line 74 or 76 by means of the switching matrix 140.When the subscriber selects a desired service or calling option, theDTMF tones originating from the subscriber's telephone set are detectedby the codec 166 and DSP 162. This will initiate such further action bythe audio interface microprocessor 152 and by the console CPU 82 as maybe required to complete the call or initiate the desired service. Duringthis time, the operator console also generates a billing detail record(BDR), as will be described in more detail below.

The functions performed by the audio interface 98 of FIG. 7 in the caseof a manual operator console 50 are similar in most respects to thosedescribed above. However, the switching matrix 140 of a manual console50 will also operate to connect the headset line 146 to one or both ofthe audio lines 74, 76 at various times during the processing of a call.This allows the human operator to converse with the subscriber in orderto obtain any necessary instructions or information, and also allows theoperator to converse with third parties to whom calls may be placed atthe request of the subscriber (e.g., during collect or person-to-personcalling). In the case of a manual console, the audio interface 98 willordinarily not be called upon to produce digitized voice messages or tointerpret tone signals received from the user, since most of thenecessary information will be exchanged verbally. Appropriate commandsfor implementing the subscriber's requests are entered by the humanoperator using the keyboard 90 of FIG. 4, and these commands areconverted by the OSS software into instructions for causing the audiointerface processor 152 to carry out the desired functions.

Some commercially available types of digital switching systems requirethat the audio lines 74, 76 be disconnected from any external equipmentat certain points during the processing of a call. To accommodate thisrequirement, the audio interface of FIG. 7 is configured to allow themicroprocessor 152 to control isolation switches (not shown) within theline interface circuits 148. To this end, output lines are provided fromthe microprocessor 152 to the line interface circuits 148. It may bedesired to provide this function for all of the line interface circuits148, as shown, rather than only for those associated with the audiolines 74, 76 leading to the digital switching system 46 of FIG. 4. Bycontrolling the headset line 146, for example, the microprocessor 152can activate the headset of a human operator only at those points duringthe handling of a call when it is necessary for the operator to speak tothe subscriber, or vice-versa.

Billing Detail Record Format

As described previously in connection with FIG. 2, the automated andmanual operator consoles 48, 50 generate a billing detail record (BDR)for each incoming call received by the long distance switching office.The BDR data is stored temporarily in the file servers 52, and is thenplaced into off-line storage in the magnetic tape units 56. The storedBDR data is periodically transferred from the magnetic tape units 56 tothe management information system (MIS) 58, where it is used incombination with stored call detail record (CDR) data provided by thedigital switching system 46 in order to generate subscriber bills. Theneed for the BDR arises from the fact that the amount and type ofbilling information which can be carried in the CDR is inherentlylimited by the architecture of commercially available types of digitalswitching systems 46. The use of the BDR avoids this limitation byproviding additional data fields which can be used to record thesubscriber's requests for specialized call types and service options notcontemplated by the designer of the switching system, so that thesubscriber can be billed for these calls and services on an itemizedbasis. In order to accomplish this, however, each CDR received by theMIS 58 must be matched or correlated with a BDR generated from the sameincoming call. The manner in which this matching function isaccomplished will be described shortly.

In the preferred embodiment of the present invention, the BDR is a240-byte record with reserved fields of different lengths. These fieldsare identified in Table 1 below:

                  TABLE I                                                         ______________________________________                                        Billing Detail Record Format                                                  Bytes     Code        Function                                                ______________________________________                                        0-1       AO          Accounting office                                                             identification                                          2-8       CI          Sequence number                                                               (call identifier)                                        9-14     RD          BDR record date                                         15-20     RT          BDR record time                                         21-23     OP          Operator console position                               24-28     OI          Operator identification                                                       (manual console)                                        29-40     --          Reserved field                                          41-44     TS          Call termination status                                 45-48     VS          Call validation status                                  49-52     RS          Reorigination status                                                          counter                                                 53-55     SN          Digital switching site                                  56-58     LT          Local time offset                                       59-68     ON          Originating telephone                                                         number (from ANI data)                                  69-84     TN          Terminating telephone                                                         number                                                  85-87     CT          Call type                                                                     (direct dial, operator-                                                       assisted, etc.)                                         88-91     BT          Billing type                                                                  (collect, credit card,                                                        etc.)                                                   92-97     RP          Rate plan for billing                                    98-100   CS          Surcharge rate (if any)                                                       per call                                                101-103   MS          Surcharge rate (if any)                                                       per minute                                              104-106   OS          Operator surcharge                                                            (if any) per call                                       107-109   FT          Foreign tax rate                                        110-133   BN          Billing number                                                                (e.g., credit card number)                              134-136   TT          Operator treatment time                                                       (in seconds)                                            137-141   R1          Miscellaneous use revenue                                                     field (for coin calls)                                  142-146   R2          Miscellaneous use revenue                                                     field (for coin calls)                                  147-162   M1          Miscellaneous information                                                     field (e.g., caller's name                                                    for collect calls)                                      163-178   M2          Miscellaneous information                                                     field (e.g., name of                                                          called party for person-                                                      to-person calls)                                        179-180   AR          Special billing action                                                        required                                                181-182   MT          Method of call termination                              183-198   SR          Statistical reporting of                                                      operator data entry errors                              199-205   CN          Customer account number                                 206-221   M3          Miscellaneous information                                                     field (e.g., name of                                                          called party for person-                                                      to-person calls billed to                                                     third party)                                            222-239   --          Reserved fields for trouble                                                   codes and credit calls                                  ______________________________________                                    

The sequence number or call identifier (CI) in bytes 2-8 of the billingdetail record is a unique number that is generated automatically by theoperator console when an incoming call is received. In order to allow agiven BDR to be matched with the corresponding CDR for billing purposes,the sequence number CI is concatenated with the SN, OP and AO fields ofthe billing detail record by the operator console. The resultingquantity, referred to as an alternate call identifier (ACI), is insertedby the operator console into the CDR field reserved for the billingnumber. (This latter field is unnecessary in the CDR since it is alreadyprovided in the BDR.) During the billing process, the MIS 58 of FIG. 2is able to link each CDR to a corresponding BDR by matching theinformation contained in the billing number field of the CDR with theinformation contained in the corresponding fields of the BDR. In orderto confirm the match, the MIS checks to determine whether the callednumber field in the CDR contains the same information as the terminatingnumber (TN) field of the BDR.

The call type (CT) field of the billing data record specifies theparticular type of call or service that has been requested by thesubscriber. Possible call types include, for example, conventionaldirect-dialed long distance calls (domestic and international),operator-assisted long distance calls, and person-to-person calls.Possible types of services which may be requested by the subscriberinclude long distance calls placed from remote telephone stations, audionews and information services, conference calling, voice messagingservices, message storage and forwarding services, subscriber-directedcall rerouting, and speed dialing. The subscriber may also requestvarious types of operator-assisted services, including travel-relatedservices and enhanced directory assistance services. The manner in whichthese services are requested by the subscriber and implemented at thelong distance switching office will be described in some detailhereinafter.

In order to utilize one or more of the enhanced services listed above,the subscribers are assigned special access numbers (preferablytoll-free 800 numbers) which they may dial in order to reach the longdistance switching office 34 of FIG. 1. When a subscriber call is placedusing one of these access numbers, the subscriber is prompted by a tonesignal to enter a unique authorization code previously assigned to thatparticular subscriber. This authorization code is sometimes referred tohereinafter as a "card number", since it will typically appear on anidentification card issued to the subscriber. This authorization codemay be in the usual 14-digit format, but may be reduced to 7 digits byusing the last 7 digits of the subscriber-dialed access number toprovide the remaining digits of the authorization code. In either case,the authorization code serves as a key in order to allow the operatorconsole to obtain a subscriber file from the file servers 52 of FIG. 2.The subscriber file provides certain billing and identificationinformation that is needed in order to generate a BDR, and alsoindicates the particular call types and service options that thesubscriber is authorized to select. A preferred format for thesubscriber file is illustrated in Table II below:

                  TABLE II                                                        ______________________________________                                        Subscriber File Format                                                        Field Size     Field Description                                              ______________________________________                                         1 digit       Account code length                                             3 digits      Account code plan                                                             (refers to file                                                               containing list of                                                            approved account                                                              codes)                                                         25 digits      Subscriber name                                                25 digits      Business name                                                  10 digits      Customer ANI (telephone                                                       number of customer's                                                          billing address)                                               10 digits      Customer 800 number                                                           for subscriber-directed                                                       call rerouting                                                  3 digits      Accounting office                                                             (destination of CDR and                                                       BDR)                                                            3 digits      Guest access routing code                                       8 digits      Virtual network authorization                                                 code                                                           16 digits      Speed dial number 1                                            16 digits      Speed dial number 2                                            16 digits      Speed dial number 3                                            16 digits      Speed dial number 4                                            16 digits      Speed dial number 5                                            16 digits      Speed dial number 6                                            16 digits      Speed dial number 7                                            16 digits      Speed dial number 8                                            16 digits      Speed dial number 9                                            1-3 digits     Voice messaging type                                                          (identifies                                                                   subscriber's voice                                                            messaging hardware)                                            10 digits      Voice messaging routing                                                       number (dialed by                                                             operator console)                                               1 digit       Voice messaging user                                                          delay (pause interval,                                                        in seconds)                                                     1 digit       Voice messaging user                                                          function (dial tone or                                                        voice activation)                                              12 digits      Voice messaging user                                                          dial string (identifies                                                       subscriber's mailbox)                                          10 digits      Voice messaging guest                                                         routing number (dialed                                                        by operator console)                                            1 digit       Voice messaging guest                                                         delay (pause interval,                                                        in seconds)                                                     1 digit       Voice messaging guest                                                         function (dial tone or                                                        voice activation)                                              12 digits      Voice messaging guest                                                         dial string (identifies                                                       subscriber's mailbox)                                          Yes/No         Domestic direct dial                                                          option available?                                              Yes/No         International direct                                                          dial option available?                                         Yes/No         Domestic operator-                                                            assistance option                                                             available?                                                     Yes/No         International operator-                                                       assistance option                                                             available?                                                     Yes/No         Enhanced directory                                                            assistance service                                                            available?                                                     Yes/No         Standard directory                                                            assistance service                                                            available?                                                     Yes/No         Virtual network                                                               service available?                                             Yes/No         Audio news and                                                                information service                                                           available?                                                     Yes/No         Conference calling                                                            service available?                                             Yes/No         Voice messaging service                                                       available?                                                     Yes/No         Message storage and                                                           forwarding service                                                            available?                                                     Yes/No         Subscriber-directed                                                           call forwarding service                                                       available?                                                     Yes/No         Personal speed dial                                                           service available                                              Yes/No         Emergency travel service                                                      available?                                                     Yes/No         Guest access available?                                        ______________________________________                                    

Initial Call Processing

FIGS. 8A and 8B illustrate the manner in which incoming calls receivedby the telephone switching system of the present invention are initiallyhandled. In general, these calls will fall into three differentcategories. The first category includes conventional long distance callsplaced by subscribers calling from their own homes or places ofbusiness, these subscribers having previously arranged to have theirlong distance service provided by the operator of the long distanceswitching office 34 of FIG. 1. Also included in this category are callsplaced by guests of hotels and other establishments served by the longdistance switching office 34; these calls may be charged to the guestdirectly, as in the case of a credit card call, or they may be billed tothe establishment and then charged to the guest separately (e.g., aspart of the guest's hotel bill).

The second category includes calls placed by subscribers who havearranged with the operator of the local telephone operating company toplace calls through a particular long distance service provider'sswitching system. Such subscribers are differentiated from one anotherthroughout this disclosure on the basis of the bundle of services theyhave arranged to receive from the long distance service provider.Subscribers that have arranged to receive the additional callingfeatures and augmented services described previously, includinglong-distance calling from remote telephone stations, audio news andinformation services, conference calling, voice messaging, messagestorage and forwarding, subscriber-directed call rerouting, speeddialing, and certain operator-assisted services, are identifiedthroughout this disclosure as "enhanced service subscribers", whereonsubscribers having more conventional call features (e.g., "1+" callingand/or a long distance call charge card) are identified as being"standard service subscribers". Calls are placed by the enhanced-servicesubscribers using special access numbers, such as specific toll-free(800) numbers, which are reserved for this purpose and serve to identifythe caller as being an enhanced service subscriber. A single accessnumber may be provided for all enhanced-service subscribers, if desired,although it will be more advantageous to provide several access numbersfor reasons which will be discussed hereinafter.

The third category of incoming calls includes calls received from thirdparties seeking to reach a subscriber or to leave a message with thesubscriber's voice messaging service. These calls are placed on aseparate group of reserved access numbers, such as toll-free (800)numbers, which are assigned to individual subscribers.

With specific reference to FIGS. 8A and 8B, incoming calls are receivedat the digital switching system 46, as indicated by block 182. Atdecision block 184, a determination is made as to whether an automatedconsole is available. This determination is made on the basis of console(both automated and manual) log-on at the switching system. If anautomated console is available, then the call is routed to an automatedconsole as indicated by block 186. At this point, the automated consoleinitiates a procedure for identifying the call process type bydetermining, from the identity of the incoming lines, whether theincoming call is a conventional long distance call (i.e., neither asubscriber request for enhanced services nor a guest call to asubscriber's voice messaging service), as indicated by decision block188. If the answer to this inquiry is in the affirmative, the call isprocessed in accordance with the procedure set forth in FIG. 9, asindicated by block 190. If the result of this inquiry is in thenegative, the call is further evaluated, as indicated by decision block192, to determine whether or not the incoming call is a toll-free guestcall that is associated with a particular enhanced-service subscriberaccount. This determination is made based on whether the number dialedby the caller is one of the toll-free numbers that has been reserved forthis purpose. If the console determines that the call is of this type,the call is then processed in accordance with the procedure illustratedin FIG. 17, as indicated by block 194. However, if the result of thisdetermination is that the call has not been made by a subscriber'sguest, the call is further evaluated, as indicated by block 196, todetermine from the dialed number whether or not the call was originatedby a subscriber in order to request enhanced services of the typedescribed previously. If the answer to this inquiry is in theaffirmative, a further decision is made in block 198, based oninformation entered by the subscriber, as to whether or not therequested service is of a type which requires handling at a manualconsole. Such calls will include, for example, person-to-person callsand requests for enhanced directory assistance. If the call is of one ofthese types, the automated console routes the call to a manual consolefor further handling as indicated by block 200. The call is thenprocessed as requested by the subscriber, as indicated in block 202. Atthis point, the manual console releases control of the call to theswitching system 46, and the initial processing of the call is complete.

In the specific case of a conference call request, the incoming call isrouted to a conference operator stationed at a dedicated manual consolesimilar to the manual console described previously. The use of adedicated manual console allows the conference call to be establishedwithout occupying one of the consoles 48, 50 for the period of timerequired to contact all of the desired parties.

Referring once again to decision block 198, if the subscriber call isdetermined by the automated console to be of a type that does notrequire handling by a manual console, the call is processed, asindicated by block 204, in accordance with the procedure outlined inFIG. 10. On the other hand, if the automatic console had determined inblock 196 that the incoming call did not originate from a systemsubscriber, the console terminates the call, as indicated by block 206.

Referring again to decision block 184, a determination that an automatedconsole is not available causes the call to be routed to a manualconsole, as indicated in block 208. The manual console then determinesthe call process type, in block 210, in a manner substantially similarto that described previously in connection with blocks 188, 192 and 196.The call is then processed in the required manner, as indicated in block212, whereupon the control over the call is relinquished to theswitching system for the duration of the call.

Processing of Conventional Long Distance Calls

The manner in which the switching system of the subject inventionprocesses conventional long distance toll calls, is illustrated in FIGS.9A and 9B. The console initiates call processing by determining from thenumber dialed by the caller whether the call is of the operator-assistedtype, i.e., "0+" prefix, indicated by decision block 214. If the outcomeof this evaluation is in the affirmative, the call is next evaluated indecision block 216 to determine from information provided by the caller(e.g., a specific keypad input such as "#") whether it is a reoriginatedcall. The term "reoriginated" and its variants as used herein refers tothe process of placing a subsequent telephone call without goingoff-hook, a function which is sometimes provided by long-distanceswitching systems. If the telephone call being handled by the automatedconsole is determined not to have been reoriginated (i.e., if the callis determined to be an original call), the call is evaluated for billingpurposes, as indicated by decision block 218, as to whether or not anautomatic number identification (ANI) accompanies the signalrepresenting the dialed number. The ANI serves to identify the telephonenumber of the station from which the call is originated. Failure todetect the presence of an ANI results in transfer of the call to amanual operator console, indicated by block 220 for processing thereby.

In the event that an ANI is detected, the console evaluates the dialednumber, as indicated by decision block 222, to determine whether thedialed number is invalid. Invalid calls can arise from the dialing oftelephone numbers that are not in the proper national plan area (NPA)format, or that are otherwise properly formatted but are not in use. Ifthe called number is determined to be invalid for any reason, the callednumber is transferred to a manual console, as represented by block 220,for further handling. If the call is not determined to be invalid, block224 prompts the caller for charge number information. User input inresponse to this prompt is evaluated, as indicated by block 226, todetermine whether the credit card number entered by the caller isinvalid, blocked, incompletely entered, or absent altogether. If theresult of any of these credit card inquiries is in the affirmative, thecall is routed directly to a manual operator console, as indicated byblock 220; otherwise, entry of a valid account number results ingeneration of a bill data record (BDR), as indicated at block 228.Following generation of the BDR, the console awaits receipt ofconfirmation from the switching system 46 that the dialed call has beenanswered at the destination telephone station. As indicated by decisionblock 230, if the console has received such confirmation, the consolereleases call processing control to the switching system, as indicatedby block 232. If the call has not been completed, as can occur uponfailure of the intended call recipient to answer, the caller can chooseto reoriginate another call, as indicated by block 234. Upon failure toselect reorigination within a prescribed time interval, the consolereleases the call to the switching system for call handling and/ortermination.

Reoriginated calls are subjected to a credit validation process for thepurpose of minimizing the occurrence of fraudulently charged calls.Accordingly, the console retrieves from a file server 52 the BDRgenerated from the proceeding call, as indicated by block 242, forfurther call verification. As indicated by block 244, if the recalledBDR contains a credit card number in the billing number field thereof(Table I), the console accesses a credit information database tovalidate the credit card number, as indicated by block 246. Followingcredit card validation, the console generates a new BDR, as representedby block 240. However, if the outcome of either of decision blocks 244and 246 is in the negative such that no credit card number is listed inthe retrieved BDR or the card number in the BDR has not been validated,respectively, the call is routed to a manual console, as indicated byblock 248.

In addition to the ANI verification and credit card validationprocedures described above, it is desirable to implement as a furtheraspect of the aforementioned credit validation process a system by whicha limitation is imposed on the number of reoriginated calls that ispermitted for any single access of the switching system. For thisreason, the console is programmed to increment a reorigination statuscounter field of the BDR upon each reorigination (see function 332-336of FIG. 10A). Once the reorigination status counter field reaches aprescribed number, the console is programmed to terminate the call,irrespective of the validity of the credit card number or the presenceof ANI. Once the console has generated a new BDR, as indicated by block240, the console prompts the caller to enter a new number to be dialed,as shown by block 250. The caller is provided with a predeterminedamount of time to input the telephone number to be dialed. During thistime interval, the console is operable to receive call number input, asshown by block 252. In the event that the time interval has expiredbefore the caller has completed key pad selection of the telephonenumber, as indicated by decision block 254, the console will monitor theline assigned by the switching system to carry the reoriginated call inorder to determine whether any called number input has been provided bythe caller, as shown by block 256. If the response to this inquiry is inthe negative, the call is routed directly to a manual operator console,as shown by block 258. However, if at least partial called number inputhas been received at the console, the console will then determine, inaccordance with block 260, whether an audible re-try script has yet beenprovided to the caller by the DSP 162. Previous play of the re-tryscript results in routing of the call to the manual operator console258. However, if the outcome of the decision process noted by block 260is in the negative, the re-try script is played, as noted by block 262,and thereafter a prompt is produced by the console in the manner notedat block 250 for caller input of a number to be dialed.

With reference once again to decision block 254, if the outcome of theevaluation noted therein is that the predetermined time interval has notyet expired, the console monitors the line carrying the reoriginatedcall to determine, as noted by block 264, whether a dialed number hasbeen entered by the caller. Failure of the console to receive dialednumber input results in regeneration of the prompt for entry of thenumber to be dialed, as noted by block 250. However, upon an outcome atblock 264 that a telephone number has been dialed, the consoledetermines as a function of microprocessor 152 programming, as indicatedby block 266, whether the dialed number is valid (e.g., whether theentered number complies with numbering plan area (NPA) standards. Upondetermination of an invalid telephone number entry, the console underprocessor control determines the audible re-try script has yet beenplayed, as noted by block 260. In the event that the re-try script hasbeen re-played, the call is terminated at the switching system 46, asshown by block 268; otherwise, the console generates for the caller are-try script, as noted by block 262. An affirmative outcome of thevalid number determination designated by block 266 results in theconsole requesting confirmation from the switching system that thedialed call has been answered at the destination station, as describedabove in connection with decision block 230. Thereafter, the call isprocessed in accordance with the procedures described above with regardto blocks 232 and 234

Referring once again to decision block 214, console determination on thebasis of call line input that the call being handled by the console isnot of the operator-assisted typed results in a further consoleevaluation, indicated by block 268, as to whether the number dialed isof a type that was dialed directly by the caller. If the outcome of thisevaluation is in the affirmative, a BDR is generated, as indicated byblock 228, after which the call is processed in accordance with themanner described above and depicted in the ensuing blocks of the flowdiagram. However, identification of the call as not being of the directdial type results in release of the call from the console to theswitching system, as shown by block 269.

Processing of Enhanced Service Requests

As noted previously, the switching system is capable of determining onthe basis of the access number dialed by the caller whether the incomingcall is one that has been placed by a system subscriber, as subscriberaccess numbers are identifiable at the switching station. The callprocessing scheme illustrated in FIGS. 10A, 10B, 10C, and 10D isimplemented in response to such a determination. Upon starting of thesubscriber processing scheme, the automated console determines on thebasis of user input whether the call to be processed is a reoriginatedcall. As described above in connection with FIGS. 9A and 9B,reoriginated calls are handled by the system of the subject invention ina manner which differs from that associated with the handling oforiginal calls due to the fact that reoriginated calls can be traced forfraud prevention and validation purposes directly to the billing datarecord (BDR) that was created during processing of the preceding call.Upon failure to detect the presence of reorigination input from thesubscriber, as noted by block 270, the console prompts the subscriber toenter his account card number, as shown by block 271, and monitors thecall line for entry of the card number, as noted by decision block 272.A negative outcome to decision block 272 results in the routing of thecall from the automated console to a manual operator console 273 forfurther processing.

If a card number is entered, the console determines, on the basis ofprogram control, whether the card number sequence entered by thesubscriber is that of an enhanced services subscriber, as shown atdecision block 274. Identification of enhanced services subscribers atan early stage of call processing is advantageous, for suchidentification permits for expedited call handling and evaluation ofsuch subscribers' requests for enhanced services, as will be discussedhereinafter. If the entered card number is not identifiable with anenhanced services provider, thereby identifying the caller as a standardrather than enhanced services subscriber, the console accesses a fileserver 52 to validate the entered card number, as shown at block 276, byconfirming the account status of the subscriber to whom the accountnumber has been issued. If the entered card number cannot be validatedfrom the data available in the file servers 52, a "bad flag" is set, asindicated by block 277, and included in the packet of identiferinformation that accompanies the call as it is further processed by theconsole. However, if the entered card number is identifiable as beingthat of an enhanced services subscriber, the entered number isconcatenated with the dialed system access number in a predeterminedmanner to obtain the enhanced services subscriber's authorization code,as indicated by block 278. Because the authorization code for enhancedservices subscribers is the result of a concatenation process involvingthe dialed access number, the same dialed access number can be assignedto more than one subscriber. As a consequence of this arrangement,subscriber files for groups of subscribers can be readily accessed onthe basis of the dialed access number. As was described previously, thecard number for enhanced services subscribers typically has fewer digitsthan does that of standard services subscribers. Accordingly, the timerequired to enter the card number is reduced, as is the opportunity forerroneous number input. Once obtained, the authorization code isvalidated, as indicated by block 280, in the manner described above forstandard services subscribers, i.e., by accessing data from one or morefile servers 52. As enhanced services subscribers can be categorized asa group, their early identification in the call processing regimenallows for segregation of their subscriber files for more expedientaccession. Failure to validate the authorization code results in thesetting of a "bad flag" in the manner described above in connection withblock 277.

Following the validation of the respective card numbers (block 276) andauthorization codes (block 280), the console prompts the subscriber toenter the desired telephone number to be dialed or the designation codeof an enhanced service, as indicated by block 282. Thereafter, theautomated console determines under program control whether a telephonenumber has been entered, whether the number entered requires operatorassistance, whether the number entered is of an invalid format orrelates to a non-existent telephone number, or whether the "bad flag"has been set. If the result of any of these evaluations, denoted byblock 284, is in the affirmative, the console routes the call to amanual console 278. Delayed routing of "bad flag" designated calls untilafter caller entry of a dialed number is advantageous for it allows forthe identification of suspect telephone numbers for further charge callabuse counter-measures. However, if the entered number is in a validformat and corresponds to an existing telephone number, the consoleaccesses the subscriber file from a file server 52, as shown by block286.

Once the console accesses the subscriber file, the console determines,as shown at block 290, whether the dialed number falls within anyrestriction noted on the subscriber file. Call restrictions can includeprohibitions against the dialing of international long distancetelephone calls, calls to telephone numbers that have been blocked orprohibited at the service subscriber's request, as well as calls thatcan be restricted during certain hours of the day or evening If theoutcome of any of these evaluations is in the affirmative, the consolegenerates an error message, as denoted by block 292, and the consolegenerates a prompt for entry of a new telephone number in the mannerdenoted by block 282 and described above. If the telephone callerservice that has been selected is not of a restricted nature, theautomated console, as shown by block 293, next determines whether anaccount code is required to process a call to access the selectedtelephone number or to provide a specified service. The account code canbe used by the enhanced services subscriber to designate an individualuser or client so as to facilitate account reconciliation among aplurality of users or clients. In the event that the subscriber dataindicates that an account code is required before a specific service canbe utilized, the automated console retrieves from the file server theaccount codes included in the subscriber file, as indicated by block294, and generates a prompt for entry of the account code, as shown byblock 296. The console monitors the call line for entry of the accountcode and compares the entered account code with the account codes listedin the subscriber file, as shown by block 298, to determine whether thecode entered by the caller is valid. In the event that an account codeis not entered or that the presented account code is invalid, the callis routed to the manual console, as shown by block 278. However, in theevent that an account code is not required (block 292) or that theproffered account code is valid (block 298), the console processes thecall in accordance with the nature of the telephone service selected orthe toll call entered.

Once the issue of account code requirement and validity has beenresolved, the automated console then determines through a plurality ofdecision processes described below the manner in which the call is to behandled. As indicated by decision block 300, the console evaluatessubscriber input prompted for at block 282 to determine whether an audionews and information service has been selected. Upon entry of theappropriate subscriber input for this service, the console generates anew BDR and processes the call in accordance with the procedural schemeillustrated in FIG. 11, as indicated by block 302 in FIG. 10C. If thesubscriber fails to select the news and information service, the consoledetermines in accordance with subscriber input whether another service,in this instance the conference call feature, has been selected, asdesignated by block 304. If the result of this evaluation is in theaffirmative, the console generates a new BDR and routes the call to aconference call operator, as indicated by block 306, for establishing aconference call between a subscriber and two or more third parties.

In the absence of conference call service selection, the consoledetermines from subscriber input whether a further service, in thisinstance the voice messaging service, has been selected, as indicated byblock 307. If voice messaging has been selected by the subscriber, theconsole generates a new BDR and routes the call through the switchingsystem, as shown by block 308, to a voice messaging subsystem 47 forhandling thereby. For both conference call and voice message serviceselection, the console awaits confirmation from the switching systemthat the switching system has successfully connected the subscriber'scall to the respective systems 51 and 47, respectively, as indicated byblock 309. Upon failure at the console to receive such confirmation, theconsole routes the call to a manual console, as indicated by block 278;otherwise, the console releases processing control of the call to theswitching system, as indicated by block 310. Subscriber selection of thevoice messaging option, as described in detail below, allows a guestcaller to whom the subscriber has provided the subscriber's personaltoll-free access number to record a message for playback to asubscriber. Further details of the voice messaging option and the mannerby which a subscriber's personal toll-free number is utilized, aredescribed in greater detail below with reference to FIGS. 13 and 17.

If the subscriber has not selected the voice messaging service, theconsole determines from subscriber input whether the service feature ofmessage store and forward has been selected, as denoted by block 312. Inthe event this service has been selected, the console produces a new BDRand processes the call in accordance with the scheme set forth at FIGS.12A-12F, as designated by block 314 in FIG. 10C. However, if the messagestore and forward service has not been selected by the subscriber, theconsole determines from subscriber input whether the service feature ofincoming call re-direction has been selected, as designated by block316. Incoming call re-direction relates to the feature of re-routing ofan incoming telephone call placed with a system subscriber's personaltoll-free number to a subscriber telephone number and location which mayor may not be known to the caller. Upon subscriber selection of thisfeature, the console creates a new BDR and processes the call inaccordance with the scheme set forth at FIG. 13, as is indicated byblock 318 in FIG. 10C.

In the event the subscriber fails to select the incoming callre-direction feature, the automated console determines from the natureof subscriber input whether the subscriber has selected the speed dialfeature, as denoted at block 320. Speed dialing is a feature by which asubscriber can store at a speed dial memory location in the subscriberfile a telephone number, thereby permitting the subscriber to dial thestored telephone number in its entirety upon accessing the speed dialmemory location. While a variety of speed dial memory locations can beprovided to a subscriber in conjunction with the myriad of servicesprovided by the telephone system of the subject invention, the preferredembodiment of the subject invention provides a total of nine speed dialmemory locations for each subscriber. In instances where the subscriberhas accessed the speed dial service, the console originates a new BDRand handles the call in accordance with the manner set forth at FIG. 14,as shown by block 322 in FIG. 10D.

In the event that the call is reoriginated by the subscriber upon entryof an appropriate key pad input, in the manner indicated at block 270,the console retrieves from a file server a BDR generated for a previouscall, as indicated by block 332. Following BDR retrieval, the consoleincrements a value in the reorigination status counter field of theprevious BDR, as indicated by block 334, and stores the value in thereorigination status counter field of a newly-generated BDR, as shown atblock 336. The console also retrieves at this time the credit cardnumber from the billing number field of the previous BDR and stores thecard number in the same field of the newly-generated BDR. Following BDRgeneration in the foregoing manner, the call is processed in accordancewith regimen as described above in connection with block 280. However,following subscriber selection of a service or dialing of a call, thenew BDR produced at block 336 is revised to include the call type fieldof the BDR, the identity of the specific service selected or of thenumber dialed.

As represented by decision block 324, subscriber entry of the operatorassistance code in lieu of any of the foregoing subscriber servicesdenoted in blocks 300, 304, 308, 312, 316 and 320 results in consolerouting of the telephone call to a manual console, as shown by block278. In the event that the subscriber has not entered a request foroperator assistance, the console determines from the subscriber input orlack thereof whether a toll call has been dialed, as noted by block 326.Upon subscriber input of a telephone number at block 282, the consolenext determines from the dialed number whether the dialed number isinvalid or corresponds to a blocked telephone number by accessing fileserver data and comparing therewith, as indicated by decision block 328.Upon console identification of the dialed number as being invalid, theconsole next determines a re-try or re-dial limit for the consolecontrol program for the entry of a telephone, as indicated at block 330.The re-try limit relates to the number of times the console handling thesubscriber's call will permit the subscriber to re-dial a telephonenumber for processing by the console. The re-try limit is established bythe services provider and usually is a number not in excess of two. Oncethe re-try limit has been reached, the console routes the call directlyto a manual console, as indicated by block 278. However, in the eventthe re-try limit has not been reached, an error message is generated inthe manner described above in connection with block 292, and a prompt isgenerated by the console for entry by the subscriber of a furthertelephone number to be called or of a service to be selected, as setforth in block 282 above. In the event that subscriber input is notreceived by the console for selection of an enhanced service or theentry of a number to be dialed, the call is disconnected at the switch,as indicated by block 340.

Audio News and Information Service

As was noted in connection with the discussion of FIG. 10C above, anenhanced service subscriber can request to receive audio news andinformation service following account validation by the console handlingthe subscriber call upon the entry of a command such as "*1" through histelephone touch tone key pad. The information service is provided by anaudio news and information system that is connected to the digitalswitching system 46 of the long distance facility of the subjectinvention so as to communicate with the manual and automated operatorconsoles 48 and 50. The news and information system comprises a databaseof prerecorded audio reports on news, weather and other information suchas prevailing stock market rates that is periodically updated andtransmitted to the subscriber under the control of the operator consolehandling the subscriber's call.

With reference to FIG. 11, following subscriber key pad entry forselection of the news and information service, the operator consolegenerates an audible menu of information services that includes, forexample, news, weather and stock market reports, as indicated by block350. The operator console prompts the subscriber to select from amongthe menu options in order to listen to a specified, pre-recorded report,as indicated by block 352. Thereafter, the operator console accesses thesubscriber file in the file server to obtain the subscriber's accesscode for utilizing the information system, as represented by block 354.

The console accesses the news and information through the switchingsystem by transmitting a signal representative of the subscriber'ssystem access code and the particular news and information serviceselected by the subscriber, as indicated by blocks 356 and 358. The newsand information system determines from the transmitted signal whetherthe access code is valid, as indicated by decision block 360. If thetransmitted access code is determined by the news and information systemto be valid, the console routes the subscriber's call through theswitching system to an in-going line of the news and information system,as shown at block 362, prior to relinquishing of call processing controlto the switching system, as indicated by block 364. If, however, thenews and information system does not recognize the subscriber'stransmitted access code, the console generates an error message, asindicated by block 366, and relinquishes call processing control to theswitching system, as indicated by block 364.

Message Storage and Forwarding

The flow chart depicted in FIGS. 12A-12F provides a functionaldescription of the manner in which the long distance service facility ofthe present invention provides enhanced services subscribers with thecapability of recording messages and automatically routing messages todesignated telephone numbers in real time or on a time delay basis. Themessage store and forward service is implemented by use of one or moreaudio response units (ARU) 49 which are connected to the switchingsystem so as to communicate with the automatic and manual operatorconsoles 48 and 50 described above. In a preferred implementation, theaudio response units may be of the type which are available fromReception Technology of Canton, Mass. The message store and forwardservice is selected upon entry by a subscriber through his telephone keypad of an appropriate command, such as "*4".

Following the subscriber's request for this service, the operatorconsole processing the subscriber's call accesses a file server 52 andretrieves the most recently generated BDR (if any) to determine whetherthe subscriber's call has been reoriginated, as indicated by block 370.In instances where the call has been reoriginated, the console obtainsthe dialed number from the previously retrieved BDR, as indicated byblock 376, in preparation of forwarding a recorded message in the mannerdescribed below to the previously dialed number in the event that thesubscriber does not designate a new number to be dialed as representedby the negative outcome of decision block 374.

As indicated by block 378, the console processes a call to the ARUthrough the switching system and proceeds to transmit to the ARU aseries of dual tone multifrequency (DTMF) digits that will uniquelyidentify a billing data record that is to be generated by the consolethat ultimately delivers the voice mail message, as indicated by block380. The digital data transmitted by the console to the ARU furthercomprises data instructing the ARU to verify delivery of a message incases where the subscriber has requested such verification, as well asthe previously dialed number obtained from the BDR. In instances wherethe subscriber does not desire to send a message to a previously-dialedtelephone number (e.g., where the subscriber has not requested callreorigination or has specified a new telephone number for messagedelivery), as indicated by block 382, the ARU prompts the subscriber forentry of a new telephone number, as shown by block 384. The enteredtelephone number is validated by the ARU on the basis of NPA standardformat, as indicated at block 386. The console subsequently instructsthe switching system to connect the subscriber to the ARU for messagerecordation and releases call processing control to the switchingsystem, as shown at block 388.

Once the console has relinquished control over the subscriber call, theARU generates a tone, as indicated by block 390, which prompts thesubscriber to commence with recordation of a message. After thesubscriber has transmitted a message for recordation by the ARU, asdesignated by block 392, the ARU generates an audible menu (block 394)which allows the subscriber to select from a plurality of options,including replay of the recorded message, continuation of the recordingtime, and termination and restart of recording, as indicated by blocks396, 398 and 400, respectively. Further, the ARU allows the subscriberto prepare a recorded message for person-to-person delivery, to specifya time interval by which delivery of the message is to be delayed, andto request verification of message delivery, as indicated by blocks 402,404 and 406, respectively. The service options designated at blocks 398through 406 are available in sequential manner in instances where theoutcome of proceeding evaluative processes, e.g., blocks 396 through404, are in the negative.

With respect to the menu option of message replay (block 396), if thesubscriber selects replay of a recorded message, the message is replayedfor the subscriber by the ARU, as shown at box 408, after which the ARUgenerates a menu as above in connection with block 394. A subscriber'sselection of the ARU menu options, as represented by blocks 400 and 402,results in message erasure by the ARU (block 410) or generation of anARU prompt (box 412) notifying the subscriber to record the name of themessage recipient, respectively, after which a message can be recordedby the ARU, as indicated by block 392. Following selection of the "delaydelivery" option indicated at block 404, the ARU prompts the subscriberto specify the number of hours by which message delivery is to bedelayed, as indicated by box 414, and records the number of hours indigital memory along with the recorded message, as indicated by block416. Thereafter, the ARU determines whether the subscriber-selectednumber of hours by which message delivery is to be delayed falls withinprescribed limits of the system (block 418). If the specified messagedelivery delay does not fall within system limits, the ARU generates anerror message, as shown at block 420, and the subscriber is promptedonce again for entry of the desired delivery delay, as indicated byblock 414. If the originally-entered delivery delay falls withinprescribed system operational limits, or if message delay (box 404) isnot selected, subscriber selection of the delivery verification featureis evaluated in the manner shown at block 406. In instances whereverification has been requested by the subscriber, the ARU encodes therecorded message, as indicated by block 424, in such a manner as toinstruct the ARU to effect a call to an automated console and to confirmtherewith the delivery of the subscriber's recorded message. Once thesubscriber has completed message recordation and utilization of the menuoptions, the ARU stores the message and associated data (e.g., messagedelay time, delivery verification control data) in digital memory, asindicated by block 426.

The person-to-person delivery option provides for delivery of asubscriber's message to a specific individual located at the designatedtelephone number, rather than for message delivery to any partyanswering at the terminating station. To effect person-to-person messagedelivery, the ARU completes a call through the switching system andaccesses a manual operator console, as represented by block 432, whichin turn generates scripts to guide the operator through the process ofconnecting a person-to-person call for message delivery. The ARUproceeds to transmit to the manual console the digital data associatedwith the recorded message which is utilized by the console to prepare abilling record, as indicated by blocks 434 and 436, respectively.

The console operator processes a call to the message recipient, asindicated by block 438, and determines whether or not the intendedmessage recipient is available, as indicated by block 440. If thespecified message recipient answers the console-initiated call, themanual console generates various scripts, as indicated at block 442, toinstruct the operator to announce to the call recipient that a messageis being forwarded. The optional recording of the subscriber'spronouncement of the recipient's name is also provided by the ARU to theconsole operator in instances where the operator is providingperson-to-person message delivery service. To effect message delivery,the console operator connects the ARU through the switching system tothe message recipient call line, as indicated by block 443, andsubsequently releases call process control to the switching system. TheARU provides the specified message recipient with options to play and toreplay the recording of the message as indicated by blocks 444 and 446,respectively. Following message delivery and replay (if any), the ARUdeletes the message (block 448) and disconnects from the switchingsystem, as represented by block 450.

If the ARU has stored data acknowledging a subscriber's request fordelivery verification in memory, the ARU proceeds to complete a callthrough the switching system to an automated console, as indicated byblock 486. As indicated by block 488, the ARU transmits to the automatedconsole the stored data which was originally transmitted by the consoleprocessing the subscriber's request for message store and forwardservice, and which uniquely identifies a billing data record that wascreated by the console delivering the subscriber's message. Theautomated console utilizes the transmitted data to access and modify anappropriate subscriber data file in the file server to acknowledgereceipt of delivery verification from the ARU, as indicated by block490. The subscriber file verification data can be used to alert thesubscriber originating the message as to the success of message deliveryvia a recorded message directed to the subscriber directly or to thesubscriber's voice mailbox. Following transmission of the data, the ARUdeletes the data from memory (block 492), and the ARU and the consoledisconnect from the switching system (block 494).

With reference again to decision block 440, if the specified messagerecipient is unavailable, the manual console generates scripts toinstruct the operator to request from the answering party a time atwhich the message recipient might be reached, as indicated by block 452.If the answering party suggests a delivery delay time, as indicated byblock 454, the operator transmits a signal to the ARU which operates toinstruct the ARU to attempt message delivery through a manual consoleafter the specified time, as indicated by block 456. If no such deliverydelay time is specified by the call recipient, the manual consolereleases call process contol to the switching system (block 455), andthe ARU deletes the recorded message (block 458) prior to disconnectingfrom the switching system (block 450). Following transmission of aspecified delay time, a time interval that is usually selected in onehour increments, from the console to the ARU, as shown at block 456, theconsole relinquishes call process control to the switching system, asshown at block 458 and the ARU is programmed accordingly to delaymessage delivery, as indicated by block 459. Once the selected messagedelivery delay time has passed, the ARU can again dial a manual consoleto attempt message delivery in accordance with system parameters, asindicated by block 460. The system can be configured to allow only aprescribed number of unsucessful delivery attempts before thesubscriber's message is removed from ARU memory and the ARU disconnectsfrom the switching system, as represented by blocks 448 and 450. Ifanother attempt at message delivery by the ARU is permissible, the ARUproceeds to process a call to a manual console, as represented by block432.

With reference once again to block 428, in instances where thesubscriber has not selected the person-to-person option, the ARUcompletes a call through the switching system to access an automatedoperator console and transmits thereto message data including thetelephone number designated for delivery, as represented by blocks 462and 464. As indicated by block 466, the console uses the transmitteddata to connect the ARU through the switching system to the stationcorresponding to the designated telephone number and to prepare abilling detail record (BDR) as indicated by block 468.

As indicated by blocks 470 and 472, the console proceeds to process acall using the new or reoriginated recipient telephone number to connectthe ARU through the switching system to the message recipient's lineprior to disconnecting itself from the switching system, as representedby 473. As represented by blocks 474, 476 and 478, if the recipient'sdialed number is answered, the ARU transmits the recorded message to theanswering party and generates a prompt notifying the recipient of theavailability of message replay. If the answering party selects messagereplay, the ARU replays the message to the answering party through theswitching system, as noted at block 476. Following delivery of themessage, the ARU deletes the message from memory (block 480) anddisconnects from the switching system (block 450). In instances wherethe subscriber originating the message has requested deliveryverification, ARU completes a call to an automated console as describedabove in connection with block 484.

Returning to block 474, if the intended call recipient does not answerthe console call, the ARU in accordance with system parameters attemptsto deliver the recorded message a designated number of times and atdesignated time intervals after the first unsuccessful call attemptuntil a prescribed retry limit is attained. If the retry limit has notbeen attained, as indicated by block 479, the ARU operates in accordancewith the procedures described above at block 462. Once the retry limithas been met, the ARU deletes the message, as indicated by block 480,and disconnects from the switching system, as represented by block 450.In instances where the subscriber originating the message has requesteddelivery verification, the ARU proceeds to complete a call to anautomated console in a manner described above in connection with block484.

Subscriber-Directed Rerouting of Incoming Guest Calls

With reference to FIG. 13 there is provided a functional description ofthe manner in which an automated operator console responds to asubscriber's key-input request to route incoming calls placed on one ofthe subscriber's personal toll-free telephone numbers to either aforwarding telephone number specified by the subscriber or to thesubscriber's personal voice mailbox.

Upon selection of the call redirect subscriber service, which can beimplemented by entering a key pad command such as "*8" through thesubscriber's telephone station, the automated console handling thesubscriber's call generates an audible prompt to query the subscriber asto his desire whether to select the voice messaging service, asindicated by block 500. Selection of the voice messaging service,indicated at block 502, can be implemented by the subscriber depressingone or more appropriate keys of his telephone key pad, the operatorconsole recalls from the file server 52, as noted by block 504, thesubscriber's service file and modifies the file so as to provide forappropriate routing of a subscriber's personal incoming calls to thesubscriber's voice mailbox, as indicated by block 506. Following callrouting to the voice mailbox, the console releases the call to theswitching system, indicated at block 508, at which point the console isavailable to process further calls routed from the switch.

Returning once again to decision block 502, if the outcome of the voicemessaging evaluation indicated therein is in the negative, the consolemonitors the call line to determine whether the subscriber has inputtedthrough his key pad a signal for selection of the speed dialing service,as indicated by decision block 510. If the console receives appropriatesignal input from the subscriber indicative of the subscriber'sselection of the speed dial service, a prompt is generated by theconsole, as indicated at block 512, to elicit from the subscriberselection of a specific speed dial number to which incoming calls on thesubscriber's toll-free guest number(s) are to be routed. The subscriberfile is recalled by the console from the file server, as shown at block514. As indicated at decision block 516, if the console receives signalinput from the subscriber indicative of a specific speed dial numberselection, the subscriber file is modified to provide for call routingat the switching station of incoming calls to a line corresponding tothe designated speed dial number, as indicated by block 518. Followingmodification of the subscriber file record, the console releases thecall to the switching system, indicated at block 508, thereby freeingthe console to handle a further call routed thereto from the switchingsystem. In instances where the subscriber has failed, as indicated byeither of decision blocks 510 or 516, to select speed dialing or toenter a speed dial number for call re-routing, the console produces anerror message, as shown at block 520, after which the call is releasedin the manner described above with reference to block 508.

Speed Dialing

As noted above, speed dialing is a service by which a system subscribercan command the automated console to dial a predetermined telephonenumber stored in a speed dial memory location. As with all of thesubscriber services described above, speed dialing is accessible fromany telephone location capable of accessing the switching system of thesubject invention. Preferably, a plurality of speed dialing memorylocations are provided for use by each of the enhanced servicessubscribers.

With reference to FIG. 14, which illustrates in general the logic systemby which the speed dialing service is operable from an automatedconsole, initiation of this subscriber service upon key pad entry of anappropriate command to the console directs the console to generate aprompt for selection of a speed dial number, as shown by block 550. Theconsole recalls the subscriber file record from the file server 52 toidentify the speed dial numbers recorded therein, as indicated by block551, and monitors the call line for a subscriber reply. As indicated atblock 552, the console evaluates whether the subscribed response to theprompt is in a correct format, i.e., whether or not a speed dial keysequence of the type to which the console control program is arranged toreceive has been entered by the subscriber. In the event the subscriberresponse is in an incorrect format or, for that matter, no response hasbeen received from the subscriber, an error message is generated, asindicated by block 554. Thereafter, the console generates a prompt foroperator assistance, as indicated by block 556, and monitors the callline for a subscriber reply, as indicated by decision block 558. If thereply to the operator assistance prompt is in the negative, the consolereleases the call to the switching system, as noted at block 560, atwhich point console involvement in the call ceases. However, if thesubscriber reply to the operator assistance prompt is in theaffirmative, the console routes the call to a manual console forhandling thereby, as indicated by block 562. Following call routing tothe manual console, automated console handling of the call ceases.

Returning now to the initial decision block 552, if the subscriber'sresponse to the speed dial prompt is in a proper format, i.e., a keysequence entered by the subscriber that is intelligible by the consolecontrol program, the control program then further evaluates thesubscriber input and determines whether an existing speed dial numberincluded in the subscriber file has been selected, as indicated atdecision block 564. If the subscriber input corresponds to an existingspeed dial number, the selected speed dial number is dialed, asindicated by block 566, and the console directs the switching system toconnect the subscriber's call with the dialed speed dial number, asshown by block 568, after which the console releases the call to theswitching system, as noted at block 560. However, if the subscriber'sentry at block 564 does not correspond to a speed dial number recordedin the subscriber file, the console generates a prompt to the subscriberfor review of the speed dial numbers included in the subscriber file, asshown by block 570, and awaits subscriber input to the call line of areply to the prompt, as indicated by decision block 572.

Should the subscriber response to the speed dial prompt at block 570 bein the affirmative, the speed console retrieves the selected dialtelephone number from the subscriber file and directs the DSP 162 of theconsole to replay the selected speed dial number, as indicated by block574. Following replay of the selected speed dial number, the consolegenerates a prompt, indicated at block 576, notifying the subscriber ofthe availability of incorporating a change to the replayed speed dialnumber. The console awaits subscriber line reply input, as indicated bydecision block 578 and, if the reply is in the negative, the call isreleased to the switching system, as noted at block 560. However, if thesubscriber response to the prompt at block 576 is in the affirmative,the console records the subscriber's change at the designated filememory location, as indicated by block 580.

In the event the subscriber has not inputted through the call line tothe console a specific speed dial number for review in response to thereview prompt indicated by block 570, a further prompt is generated bythe console to notify the subscriber as to his option to create a newspeed dial number, as indicated by block 582, and the console awaitssubscriber call line reply in response thereto, as indicated by decisionblock 584. In instances where the subscriber line reply to the prompt582 is in the negative, the call is released to the switching system inthe manner described above in connection with block 560. However, if thesubscriber directs reply to the prompt 582 that is in the affirmative, anew speed dial number is recorded at a subscriber-selected memorylocation, as indicated by block 586. Following entry of the new speeddial number (block 586) or recordation of a change in the telephonenumber recorded at a specified speed dial location (block 580), theconsole provides a prompt for a new service selection as shown at block588, notifying the subscriber of the availability of further servicesselection. The console then awaits reply by the subscriber, as indicatedat decision block 590. If the subscriber's reply indicates no furtherservice is required, the console releases the call in the mannerdescribed above in connection with block 560. However, if thesubscriber's reply indicates that further service is required, theconsole then determines in response to subscriber input to the callline, as indicated at decision block 592, whether or not further speeddialing services have been selected. If the service selected by thesubscriber is one other than speed dialing, then the selected service isprocessed in an appropriate manner, as indicated at block 594, and thecall is routed to the switching system in the manner described above inconnection with block 560. However, if the subscriber has selectedfurther speed dialing services the console generates a prompt forselection of a speed dial number, as described in detail above inconnection with block 550. Thereafter, the call is processed in themanner described above until release to the switching system.

Operator Assisted Services

The flow chart set forth in FIGS. 15A and 15B provides a functionaldescription of the manner in which the long distance facility of thepresent invention provides subscribers with enhanced directoryassistance including direct connection to selected parties usingtelephone numbers obtained through directory assistance. FIGS.16(A)-16(D) depict screens that are generated by a manual console toguide the operator through the enhanced directory assistance process.

Following receipt of a call at the switching system 46, as indicated byblock 600, the switching system determines in the manner described atFIGS. 10A-10D whether the incoming call is that of an enhanced servicessubscriber or a third party, as shown at block 602. Calls not originatedby an enhanced service a subscriber are handled in the manner describedabove in FIGS. 9A and 9B, as indicated by block 604. Calls originated bya subscriber are evaluated by the switching system to determine whetherthe directory assistance feature has been selected, as indicated atblock 606. Directory assistance is provided by a manual operatorconsole. A subscriber can request directory assistance through a manualoperator console by dialing an appropriate command such as "*0" throughhis telephone key pad after his call has been received at the longdistance switch (see function 324 of FIG. 10D). Alternatively, thesubscriber's incoming call can be automatically routed to a manualoperator console in the manner described in connection with FIGS.10A-10D above upon his failure to enter a dialed number. If directoryassistance has not been selected, the console processes other servicerequests, as noted at block 608, until the console releases processingcontrol to the switching system, as indicated by block 610.

After the subscriber has requested directory assistance and has beentransferred to a manual console, as represented by block 612 (FIG. 24),the manual console is programmed to generate a prompt (FIG. 16A) on theconsole monitor that instructs the operator to request from thesubscriber the name of the call recipient, as indicated by block 614.After the operator has entered the name of a call recipient at themanual console, as indicated by block 616, the console generates anotherprompt (FIG. 16B) on the monitor which instructs the operator to requestfrom the subscriber the city in which the call recipient is located, asrepresented by block 618. Once the operator enters thesubscriber-requested city (block 620), the console generates a furthermonitor prompt instructing the operator to request from the subscriberthe state in which the call recipient is located, as represented byblock 622. As shown in FIG. 16C, the console is programmed to generate atable of state abbreviations from which the operator can choose tofacilitate entry of the state requested by the subscriber. Followingentry of the call recipient state, as represented by block 624, theconsole performs a table look-up function in a database using the stateentered at block 624 so as to produce on the monitor a table of areacodes (FIG. 16D), as indicated by block 626, that correspond to the callrecipient state selected by the subscriber. The operator proceeds toplace the subscriber on hold at the switching system, as indicated byblock 628, and to select an appropriate area code from the list of codesdisplayed on the monitor in order to place a call to directoryassistance for that particular area code by dialing "(area code)555-1212", as represented by blocks 630 and 632, or a database havingsimilar directory information.

The operator consults with directory assistance personnel in theselected area code to obtain the telephone number of the desired calledparty. If a telephone number is available, as indicated by block 634,the operator proceeds to dial the called party number as indicated byblock 636, and to determine whether the called party is available, asshown at block 638. Following the called party answer to the consolecall, the operator connects the subscriber through the switching systemto the called party line, as indicated by block 640, after which consolehandling of the call terminates and directory assistance ends, as shownat block 642.

With reference again to decision block 634, if the telephone number ofthe called party is unavailable through the directory assistance of theselected area code, the operator requests from the subscriber additionalinformation regarding the party to be called, as represented by block644. Upon receipt of additional information from the subscriber, theoperator again places the subscriber on hold and proceeds to contactdirectory assistance in the selected area code, as represented by blocks648 and 628. If no further information on the called party is availablefrom the subscriber, the operator prompts the subscriber to selectanother service, as indicated by block 648. If another service isselected by the subscriber, the operator determines whether or notdirectory assistance has again been requested by the subscriber, asshown by block 650. If the outcome of this evaluation is that assistancehas again been requested, the manual console generates a monitor prompt,as noted at block 614, instructing the operator to request from thesubscriber the name of the party to be called, after which the call isfurther processed in the manner described above. In the event anautomated service is requested rather than directory assistance, thesubscriber call is transferred to an automatic console, as representedby block 652 and manual operator handling ceases, as indicated by block642.

Pre-recorded audio scripts can be provided as an alternative to thetextual manual operator prompts described above in connection with FIGS.15A, 15B and 16A through 16D. The audio scripts can be provided at oneor both of the opening and closing stages of an operator-assisted callin order to facilitate operator call processing and to increase the callprocessing capability of the manual operators. FIG. 18 presents a flowdiagram of the manner in which such operator-assisted calls areprocessed. With reference to the flow diagram, operator-assisted callprocessing begins upon routing of a call to a manual operator consolefrom an automated console in accordance with an enhanced servicessubscriber's input through the call line of the operator-assistanceservice command, as indicated by block 780. Following call receipt, theoperator logs on with the switching system 46, as indicated by block 782by keying in an appropriate identification code. Console log-on in thismanner serves the purpose of providing an indication to the switchingsystem that the operator console designated by the identification codeis unavailable at that time to process another incoming call. Followinglog-on, the console plays back to the caller, as indicated by block 784,one or more appropriate pre-recorded audio scripts similar to thatdepicted in FIG. 16A. The various pre-recorded scripts are typicallystored in code form at the file servers 52, and are retrieved by theswitching system for use by the console upon entry of the consoleidentification code. The identification code can also be used as a meansto identify specific console operators, thereby enabling file serverretrieval of pre-recorded scripts that are in the identified operator'sown voice. The pre-recorded scripts can be of a type which provide onlya caller greeting or that, in addition, elicit caller repsonse in eitherspoken or demonstrative (i.e., depressing a specific key pad) responses.During the period of script play-back to the caller, the headsetmicrophone of the operator is preferably inactive in order that thecaller is not disturbed by any background sounds that could be picked upthrough the operator's microphone. Once the opening script has beenplayed to completion, the headset microphone is actuated, as shown atblock 786, in order that the operator may converse directly with thecaller to further process the call, as is indicated by block 788. Uponentry of an appropriate keyboard or similar command at a subsequentpoint of operator call processing, such as at the closing of operatorhandling, the operator microphone is deactivated, as denoted by block790, and an appropriate prerecorded closing script is played to thecaller, as shown at block 792. In view of the foregoing description, itwill be appreciated that prerecorded scripts can be played at varioustimes during the course of operator call processing and that prerecordedscripts in a variety of foreign languages can be played to a caller uponselection of appropriate operator console inputs.

Third Party Guest Access

The telephone system of the subject invention provides a scheme by whichnon-subscribers (i.e., guests) can access and utilize particularfeatures of the telephone system. Guest access to the switching systemcan be obtained by dialing a toll-free guest number that has beenassigned to a system subscriber. As mentioned previously, systemsubscribers can obtain one or more toll-free guest numbers in accordancewith their own perceived needs. It is envisioned that the systemsubscriber will provide an appropriate one of his personal toll-freetelephone numbers to persons having a need to either reach thesubscriber at a forwarded telephone location or to record a message forsubscriber playback.

With reference to FIG. 17, toll-free subscriber guest numbers dialed bya user are received by an automated console which, upon receipt thereof,retrieves subscriber file data from the file servers 52, as indicated atblock 750, and accesses the customer 800 fields thereof to identify thesubscriber to whom the call is both attributable and chargeable. Uponconsole retrieval of the subscriber file, the file is further evaluatedby the console to determine which guest service has been selected by thesubscriber, as indicated by block 752. As indicated by decision block754, the subscriber file is evaluated by the console to ascertainwhether an entry exists in the file for a field corresponding to theselection of guest call re-routing. If the console identifies this fieldas having been selected by the subscriber, the console accesses thecorresponding speed dial field and directs the switching system to dialthe speed dial number from the designated file field, as indicated byblock 756, and to connect the guest call therewith, as denoted by block758. Following call connection in the foregoing manner, a BDR isgenerated, as shown at block 760, and the console releases the call tothe switching system, as shown at block 762, for handling of anothercall to be routed from the switching system.

With reference once again to decision block 754, if the console does notidentify the presence of a guest call re-routing field in the subscriberfile, the console evaluates the subscriber file further to ascertainwhether there exists in the file a field corresponding to theavailability of the voice messaging service, as indicated at decisionblock 764. In the event that the console cannot identify this filefield, the console generates an error message to the guest caller,indicated by block 766, and thereafter releases the call to theswitching system, denoted at block 762.

Console identification of the voice messaging file field results in afurther console evaluation, indicated by decision block 768, as towhether the voice messaging service is designated in the file field ashaving been selected by the subscriber. In the event this service hasnot been selected, an error message is generated in the manner notedabove with respect to block 766 and the call is thereafter released tothe switching system. However, if the console identifies from thesubscriber file that the voice messaging service has been selected, theconsole dials the voice mailbox 47 of the messaging system, as indicatedby block 770, with the appropriate route number identified in thesubscriber file and routes the guest call thereto, as shown by block772. Upon connection with the guest call, the console prompts the guestcaller to record a message for the subscriber, as noted at block 774after which the console produces a BDR for billing purposes in themanner described above in connection with block 760. Following BDRgeneration, the call is passed from the console to the switching system,as indicated by block 762.

Enhanced Conference Calling Service

Details of an enhanced conference calling service that is provided inaccordance with the present invention are described below in connectionwith the flow chart depicted in FIGS. 19A and 19B. With reference to thedrawing, scheduling of the enhanced conference call service is initiatedupon dialing a conference call scheduling number as indicated by block794. Preferably, each enhanced conference calling subscriber is providedwith an access number, such as a toll-free number, that is unique tothat particular subscriber. Upon receipt of the dialed number, theswitching system 46 generates an audible prompt, as indicated by block796, thereby informing the caller of the need for a reply. Upon receiptof an appropriate reply, which may consist of depressing the "0" key ofthe caller's telephone key pad, as indicated by decision block 798, thesubscriber is routed to a conference call operator, as indicated byblock 800. Preferably, dedicated conference call operators are providedto receive incoming conference scheduling calls, in order to facilitatecall processing. In the event that the subscriber fails to provide theproper reply to the prompt, as indicated by block 796, an appropriateerror message is produced, as indicated by block 802. Subsequently, theprompt indicated at block 796 is produced once again.

Following call routing to the conference operator in the mannerdescribed above, subscriber file data is retrieved from the file servers52, as shown by block 803, and the conference operator collects from thesubscriber the subscriber's conference call pass code and matches thiscode with the pass code recorded in the subscriber file. Following passcode verification, the conference operator receives call schedulinginformation from the subscriber as indicated by block 804. Thisscheduling information includes the date and time of the desiredconference call, the telephone numbers of the call participants, thecall pass code, the conference call access number, and (optionally) theexpected maximum duration of the call. After the scheduling operator hasreceived this information, the appropriate date and time is reserved foruse of the conference bridge 51 of FIG. 2. The conference bridge 51 maybe of a commercially available type, such as the Model MBX unitmanufactured by Confertech International of Golden, Colo.

When the scheduled date and time for the conference call arrives,incoming calls from the third party conference participants are receivedat the long distance switching office 46, as indicated by block 806.Each third party participant receives an audible prompt, as shown byblock 808, for entry of the pass code that has been assigned forauthorized connection to the conference call line. The switching systemawaits entry of the pass code, as indicated by decision block 810. Uponentry of the proper pass code, the switching system accesses theconference bridge to ascertain its availability, as indicated by block812. If the conference bridge is determined to be available, the calleris routed to the conference call line through the conference call bridgeas shown by block 814.

With reference again to decision blocks 810 (pass code) and 812(conference bridge), if the outcome of either evaluation is in thenegative (i.e., due to entry of an improper pass code or unavailabilityof the conference bridge), the call is routed to a manual operatorconsole, as indicated at block 816. The console attendant is providedwith subscriber file data relating to the establishment of theconference call based on the caller's dialed number input and canproceed to assist the caller and ascertain whether the caller isentitled to participate in the conference call, as shown by decisionblock 818. If the console attendant determines on the basis of theinformation provided by the caller that the caller is not entitled toparticipate in the conference call, the call is released, as shown byblock 820, after which operator involvement in the call ceases. However,if the caller provides the proper information, such as the date and timeof the conference call and the conference call pass code, the operatorroutes the call through the conference bridge to the conference line, asindicated at block 814. Following call routing to the conference line,the operator console generates a BDR for that conference callparticipant, as denoted by block 822. The conference call operator thenreleases the call, as shown by block 824, and operator participation inthe call ceases. A BDR is recorded for each conference call participantand is correlated by the management information system (MIS) 58 with CDRdata and the subscriber file record data in the manner described belowto provide a billing statement for the cumulative cost of the conferencecall.

Account Statement Production

Operation of the management information system (MIS) 58 for thedetermination of call charges is illustrated generally in the flow chartdepicted in FIG. 20. With reference to the flow chart, BDR informationstored on magnetic tape is obtained from the storage units 56, as shownby block 828, and is input to the MIS 58 by conventional magnetic tapedrive systems. Thereafter, BDR data is retrieved from the tape (block830). CDR data produced by the digital switching system 46 is receivedtherefrom following completion of a toll call routed through theswitching system, as shown by block 832. Following receipt of CDR andBDR data, the CPU 118 processes the data for each call in accordancewith billing program control accessed from ROM 120, as indicated byblock 834, by correlating data contained in the ACI field of the CDRwith data from corresponding fields contained in the BDR. Matching ofCDR and BDR records is confirmed upon CPU verification that the contentsof the dialed number information for each of the correlated CDR and BDRrecords contains the same information. Once the corresponding CDR andBDR records are matched together, the MIS determines the charges for thecall, as noted by block 836. Call charges are typically based upon suchfactors as call duration, day of the week on which the call wasoriginated, time of call origination, the locations of both the callerand the dialed telephone station, and the nature of any enhance servicesutilized by the subscriber. Further charge factors that can beconsidered include access fees for local telephone line operatingcompanies, as well as the type of line utilized for the call (e.g.,data, international). Following call charge determination, the CPUinstructs the printer 126 in accordance with preprogrammed or operatorinput commands to generate a printed copy of an account statement of thecall, as shown at block 838. Information such as the subscriber's nameand billing address can be accessed by the MIS 58, if necessary, forinclusion in an appropriate field of the account statement. Onceprinted, the statements can be delivered to the respective subscribersfor account reconciliation. It is to be noted, however, that not allsubscribers will require a printed account statement. Such subscriberscan typically include hotels and other lodging establishments, whichprovide telephone service to guests whose stay at the establishment isgenerally of a short duration. In such instances, provisions can be madefor modem or other form of electronic delivery of the accountinformation in order that the parties placing the calls can beappropriately billed prior to their departure.

What is claimed is:
 1. Apparatus for making enhanced telephone services available for use by a caller at any telephone station connectable to a telephone system, said apparatus comprising:(a) switching means for receiving calls including an authorization code and selection codes entered from said telephone station; (b) processing means operable in connection with said switching means for implementing said enhanced telephone services and operative to receive said authorization and selection codes; (c) storage means for storing information available to said processing means and including information defining certain ones of said enhanced telephone services preselected by a subscriber to be associated with said authorization code; and (d) wherein said processing means includes means responsive to said authorization code entered from said telephone station by the caller to extract said information defining said preselected enhanced telephone services and to make said services available to be selected for use from said telephone station by entry of said selection codes.
 2. The apparatus of claim 1 which further includes means responsive to a predetermined access number received from said telephone station for connecting the telephone station to said processing means.
 3. The apparatus of claim 1 wherein the preselected enhanced telephone services are selected from the group consisting of audio news and information services, conference calling, voice messaging, message storage and forwarding, and speed dialing.
 4. The apparatus of claim 2 wherein said processing means includes means to provide an audible message identifying said preselected enhanced telephone services to prompt the caller at said telephone station for entry of one of said selection codes for selection of one of said services.
 5. The apparatus of claim 4 wherein said processing means includes means responsive to authorization and selection codes in the form of DTMF signals.
 6. The apparatus of claim 4 wherein said processing means further comprises means responsive to each one of said selection codes from the telephone station and to the information defining the preselected enhanced telephone services to make available a selected service having correspondence with one of said selection codes only in the event the selected service is among the preselected enhanced telephone services associated with the authorization code.
 7. Apparatus as recited in claim 1 wherein said switching means comprises a switch in a long distance network and said telephone used by said caller is connected to an originating local exchange;wherein said apparatus further comprises means connecting said originating local exchange to said long distance network switch; whereby said caller has access to said enhanced services regardless of a location of the originating local exchange to which said telephone is connected.
 8. Apparatus as recited in claim 2 wherein said enhanced telephone services include at least two of (i) long-distance calling from remote telephone stations, (ii) audio news and information services, (iii) conference calling, (iv) voice messaging, (v) message storage and forwarding, (vi) subscriber-directed call rerouting, (vii) speed dialing and (viii) operator-assisted enhanced directory services.
 9. A method of providing enhanced telephone services, to any telephone station on request, comprising the steps of:(a) assigning an authorization code to a subscriber for use by a caller desiring to use such services; (b) receiving the authorization code at a telephone switching facility from a telephone station at which the caller desires to use such services; (c) using the authorization code as a key to gain access to a record of said services; (d) causing the presentation of a menu of services to the caller at the telephone station; (e) receiving at least one selection from the telephone station as an indication of a listed service desired to be used; and (f) providing said service to the caller if the subscriber has preselected that service as available for selection.
 10. A method as recited in claim 9 wherein the enhanced telephone services are selected from the group consisting of audio news and information services, conference calling, voice messaging, message storage and forwarding, and speed dialing.
 11. A method as recited in claim 9 which includes the further step of, as a prerequisite to step (b), receiving an access number associated with the provision of enhanced telephone services.
 12. A method as recited in claim 9 wherein the authorization code received in step (b) and the selection received in step (e) are both received in the form of DTMF signals.
 13. A method as recited in claim 9 wherein said telephone station is coupled to an originating local exchange and said telephone facility is part of a long distance network and wherein:said step b) includes receiving said authorization code from said telephone station via said originating local exchange; said step d) includes presenting said menu to said telephone station via said originating local exchange; said step e) includes receiving said one selection from said telephone station via said originating local exchange; and said step f) includes providing said service to said caller via said originating local exchange.
 14. A method as recited in claim 9 wherein said enhanced telephone services include at least two of (i) long-distance calling from remote telephone stations, (ii) audio news and information services, (iii) conference calling, (iv) voice messaging, (v) message storage and forwarding, (vi) subscriber-directed call rerouting, (vii) speed dialing and (viii) operator-assisted enhanced directory services.
 15. A method for making certain enhanced telephone services available, on request, to a caller at any telephone station connectable to a telephone system, said method comprising the steps of:(a) assigning an authorization code to a subscriber; (b) selecting the certain enhanced telephone services and associating them with the authorization code; (c) receiving, at a point associated with the system, the authorization code provided as an input from the telephone station; (d) providing the caller with an audible list of the enhanced telephone services; (e) receiving at said point at least one service selection as an input from the telephone station, said service selection being indicative of at least one service from said audible list selected for utilization by said caller; (f) making the one selected service available for use by the caller at the telephone station only if the one selected service is one of the certain enhanced telephone services associated with the authorization code; and (g) repeating steps (d) through (f) upon a reorigination request therefor entered from said telephone station.
 16. The method of claim 15 wherein the service selection input is received in the form of a DTMF signal.
 17. The method of claim 15 wherein subsequent to step (c) the entry of said reorigination request causes the caller to be presented with an option to place a conventional telephone call in lieu of steps (d) through (f).
 18. The method of claim 15 wherein the reorigination request is entered in the form of a DTMF signal.
 19. The method of claim 18 wherein the certain enhanced telephone services associated with the authorization code are selected from the group consisting of voice messaging, speed dialing, message storage and forwarding, and audio information.
 20. The method of claim 18 wherein the reorigination request in the form of a DTMF signal is more particularly the DTMF signal produced by actuation of a "#" key of said telephone station.
 21. A method as recited in claim 15 wherein said enhanced telephone services include at least two of (i) long-distance calling from remote telephone stations, (ii) audio news and information services, (iii) conference calling, (iv) voice messaging, (v) message storage and forwarding, (vi) subscriber-directed call rerouting, (vii) speed dialing and (viii) operator-assisted enhanced directory services.
 22. A method as recited in claim 15 which includes the further step of:routing a call identified by an access number associated with provision of enhanced telephone services to said point associated with the system.
 23. A method whereby multiple subscribers for enhanced telephone services can each enable the provision of preselected ones of said enhanced telephone services to any telephone station on request, comprising the steps of:(a) providing a common access number for use by the multiple subscribers for such services; (b) providing each subscriber with a card number unique to said subscriber; (c) using the access number, entered from a telephone station at which a caller desires to use enhanced services, for routing access of said telephone station to a telephone network facility; (d) receiving the card number of said subscriber at said telephone network facility from said telephone station; (e) using the card number to derive a key to gain access to a record of the preselected ones of said enhanced services for said subscriber; (f) causing a list of enhanced services to be presented at said telephone station; (g) receiving a selection from said telephone station as an indication of a listed service desired for use; (h) providing said service for use from said telephone station if said service is among those preselected for said subscriber; and (i) wherein subsequent to step (e) a command for reorigination may be entered from said telephone station to thereby cause step (f) to be carried out and said steps (g) and (h) to become available to be carried out.
 24. The method of claim 23 wherein the access number, the card number, said selection and the command for reorigination are provided from said telephone station in the form of DTMF signals.
 25. The method of claim 24 wherein in step (e), a concatenation of at least a portion of said access number and the card number of the subscriber is used as a key to gain access to a record of the preselected ones of said enhanced services for said subscriber.
 26. The method of claim 24 wherein the preselected ones of said enhanced telephone services are selected from the group consisting of audio information services, conference calling, voice messaging, message storage and forwarding, and speed dialing.
 27. A method as recited in claim 23 wherein said enhanced telephone services include at least two of (i) long-distance calling from remote telephone stations, (ii) audio news and information services, (iii) conference calling, (iv) voice messaging, (v) message storage and forwarding, (vi) subscriber-directed call rerouting, (vii) speed dialing and (viii) operator-assisted enhanced directory services.
 28. In association with the provision of enhanced telephone services to callers regardless of the location of the telephone station from which a call is placed, a method of restricting access to those enhanced telephone services, comprising the steps of:(a) receiving each call placed using a predetermined access number associated with the provision of enhanced telephone services; (b) receiving an authorization code entered at the telephone station; (c) generating an extended length authorization code by concatenating the received authorization code with at least a portion of the access number; (d) determining the validity of the extended length authorization code; (e) providing a prompt at the telephone station for selection to be made of a specific enhanced telephone service; (f) responding to the selection by accessing information associating the extended length authorization code with a set of enhanced telephone services; and (g) providing the selected enhanced telephone service if the selected enhanced telephone service is found within the set of enhanced telephone services associated with the extended length authorization code.
 29. A method as recited in claim 28 wherein the enhanced telephone services are selected from the group consisting of audio news and information services, conference calling, voice messaging, message storage and forwarding, and speed dialing.
 30. A method as recited in claim 28 wherein said authorization code is received in the form of a DTMF signal.
 31. A method as recited in claim 28 wherein said enhanced telephone services include at least two of (i) long-distance calling from remote telephone stations, (ii) audio news and information services, (iii) conference calling, (iv) voice messaging, (v) message storage and forwarding, (vi) subscriber-directed call rerouting, (vii) speed dialing and (viii) operator-assisted enhanced directory services.
 32. For use by multiple subscribers for enhanced telephone services, apparatus usable in connection with a telephone network to allow each subscriber to enable callers to access and use certain ones of said services from any telephone station on request, comprising:(a) network means, located at a point within the network, to which calls from said any telephone station are routed upon entry therefrom of an access number common to the multiple subscribers; (b) processor means, operable in connection with said network means, for implementing said enhanced telephone services and adapted to receive an authorization code and service selection codes entered from said any telephone, said authorization code being unique to a particular subscriber; (c) storage means for storing information in association with the authorization code to define the certain ones of said services, those certain ones having been preselected by the particular subscriber; and (d) whereby said processing means is operative to extract said information defining said certain services and to make at least one of said services available for use from said any telephone station by entry of at least one of said selection codes.
 33. The apparatus of claim 32 further including:means to present a list of enhanced services at said any telephone station, each listed service being in correspondence with one of said selection codes, and from which list said at least one selection code is entered; and means to accept a reorigination signal entered from said any telephone station to cause a presentation of said list of enhanced services to allow selection of a service therefrom or to allow a conventional call to be made, at the option of a caller at said any telephone station.
 34. The apparatus of claim 33 further including means to accept entries made from said any telephone station in the form of DTMF signals.
 35. The apparatus of claim 34 wherein the certain services preselected by the subscriber are selected from the group consisting of audio information services, speed dialing, conference calling, voice messaging, and message storage and forwarding.
 36. Apparatus as recited in claim 32 wherein said network is a long distance network and said any telephone station is connected to an originating local exchange and which further comprises means coupling said originating local exchange to said long distance network. 